aknad1 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following aknad1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the aknad1 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OXa44208 XM_018093636.1
Latest version!
Xenopus tropicalis AKNA domain containing 1 (aknad1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OXa35470 XM_012962482.2
Latest version!
Xenopus tropicalis AKNA domain containing 1 (aknad1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OXa35471 XM_012962485.2
Latest version!
Xenopus tropicalis AKNA domain containing 1 (aknad1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OXa35472 XM_002932172.4
Latest version!
Xenopus tropicalis AKNA domain containing 1 (aknad1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OXa35473 XM_012962486.2
Latest version!
Xenopus tropicalis AKNA domain containing 1 (aknad1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OXa35474 XM_012962487.2
Latest version!
Xenopus tropicalis AKNA domain containing 1 (aknad1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OXa57338 XM_012962482.3
Latest version!
Xenopus tropicalis AKNA domain containing 1 (aknad1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OXa57339 XM_012962485.3
Latest version!
Xenopus tropicalis AKNA domain containing 1 (aknad1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OXa57340 XM_002932172.5
Latest version!
Xenopus tropicalis AKNA domain containing 1 (aknad1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00

ORF Online Only Promotion

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID OXa44208
    Clone ID Related Accession (Same CDS sequence) XM_018093636.1
    Accession Version XM_018093636.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2883bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product protein AKNAD1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030680.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    ATGGAGGAAA ATGATACAAC TGGGGATGAA CAAGAAGACT TGCCTTATGA TGGAATCCTT 
    GAATGTTATT TGACTTCAAA TATAGACCAA GAAGACATTA ACTATCTTGG TGAGGATACT
    GGTGGTTATC AATATGTAAT TCATCTTGGG AAAGAAAAAG CTCACTCTTT AAACAGTGCT
    GAGTGTGTTA AAGCGGAACT ACTTCCATCA AAAAATATTG ATGCTTCCAG TTTTTCTCAA
    CAAACCATTT CTGTGACTTT TGATGCTTCA GACCTGTCTT TGTCTAGCAA AGTAAATAGC
    AAGAGCTTAG AGTACCAGAG CACTGTCATT CCTGATACAC TGCACAATCA TTTTAATGGA
    GACAGTCTGT TTAATGAGTG TAATTTTATT GACCATGAGG CTATCCCAGA ATGCTCATTA
    GCTGATAGCA TTAATGGTGA TGTAATGAGT AAAATCAGTT TTTTAGACTC TAACAAGGAT
    AATGCTCAGT CGAAGCAAAT GGAAGACCAA GAAAAGTATT ATTTTGAAAG GGAATATATA
    AAGCCATTTA ATAACAAGGT TGCATTTATA TCTAACGAAG ACCTATCCAT TGATGCTTCC
    ATTCAGGAGA CAAATGTAGA GATAAATTGT GGATTACTAC GTGCAGAACA CATTTCAATA
    AAAGAACTGC AGCCTACTGA AACTGATATA ATAAACAAAG GTCTTCAAGA AAGAAGACAT
    TCTTTTCACG ATATCAAGTA TGGCCAAGGG CAGGTTAACT ACAAGCTACA GGATCTTACA
    AAAATACATC CTAAGGTAAA AATACCCAAT GGGAAGGACA GCTCTAGATC TGTCCCTAAT
    TTACAGAGAA GCAGATCATC TCCAAGTATG ATTGAACCCT CTGCTATGGT GAGAGAATTA
    CAGGACTCTA TGCAGCCTTC CAGCGAGCCT ATAAATATAA AAGACACAGT TAAGGCCTCA
    GACCAGGGAT CCCCACATGG ATCGTCTATT TATGAACTCG ACATACAGTA TTCTGAAACT
    GACCACAACC TTTTTCCAGA CAACCTCTCT AAGCAGCTGA AGGACTCATG GAGAAGCAAG
    GAAAGTGATA CAACTGGTGA TGAACAAGAA GACCTACCTT ATGATGGGAT CCTTGAATGT
    TATTTGATGC CAAATGTAAA TCAATTTGAC ATAAGCAATT CTAGTGAGGA TGCTGGAGGT
    CTTCAAAATG TAATTAATCT TGAGGAAAAA GGAAAATGTT ACTCTCCAAA TGGTGCTGAG
    TGTGTTAAGG AGGAACTGCT TATTCCTTCA GAAAATATTG ATGCTTCCAA TGCTTCAGAA
    CTGCCATTGT CTAGCAAAGG GAATAGCAAG AGCACTGTCA TTCCTGATGT CCTGCTTCGT
    CATTTTAAAG AAGACAATCT TCTTAATCCC TGTAATTTCA TTGACTGTGA GACTTTCCCA
    GAACTCTCAT TAATTGAAAG CATTGATGAA ACTGTGATCA GTAAATTAAG TTTTTTAGAC
    TATAACAATG ACAGTGCTCA GTCAGAGCGA AGTGAAGACC AAAAAAAGTA TTTTTTGGAA
    AGAGACAAAG AACCACTCAA CATCCAGAAT GAATGCACAT CTAATCAAGA GCACGTTACT
    GATTTCTACT TTCAGGAGAG AGATGGAGTG ACAAATCATG GATCAAGTGC AGAAAGTATG
    GAGATAAAAG AATTGCAGCC TACTGAAATA GATAAAACAT ACAAAGAGCA TAGATATCAA
    GAAAGAAGAC ATTCTTCCTA TGATATCAAG TATGGCCAAG GGCAGGTTCA CTACAAGTTA
    CCGGATTTCT CAAAAATACC TCCAAAGGTC AAAATACCCA AAGGGAATGG CAGCTCTAGG
    TCTGTTCCTA CATTACACAG AAGCAGATCA TCCCCAAGTA TGATTAAATC GTCAGCTGTG
    GTGAGAGAAT TACTGGACAC TATGCAGCCT TTCAGTGAGA CTGTAAATAT AACAGAAACA
    ATTGAGGCCT CAGCACTTCT AGGCCAGACA TCTGCACTTC TAGGCCAGGT ATCCCAGGCA
    CCCCAACGAC TCACATCAGT GCCTCTAAGT GTTACAGAGA CTTCCGGTCA ACCATTAAAC
    CATCAAAACT GCAGTGAAGG GCCTACCCAA GAATATATGA CTGACATTCC TTTTCAAGCT
    GTTAATTTGG CACATAAAGA AGAATGTGTG AGAGCTGCCA ACTTTCAGCT TCCAACAGAA
    GGAGAAAAAA TGGCTGACAT GCTGAGGAAA GAAGCCCAGC AGCTGCAAGT TAAAGTTGAA
    AAGCTTTCTA ATAATATAGT AAAGGAATCA TTACCGCTGA AAGAACAGTG TCTGATATTT
    CAGGATTTAA AAAGCAGTGT GGAAGCTCTA GAACTGGATT ACTTATTCAA AAAAGAGAAA
    CACCGGCAAA TGCAGCTTCA GGCTTACAGA ACAGAATCCC AGATGGTTGG GGAGTTTGAT
    CTGGAGAGAG AGGTGGAGGG GCAAATCTTC AGGCTGGAGA TGCTTCTAGA AAACATTCAA
    GAACAACTTA ATGCAAAAGT TCCATCAACT GAATCATCAG CAAATTCATA TGATACAGCA
    GTATCATCTA TATCAACGCA GGCCCATAGG AACTCAGAGA CTTTAATGCA CGCTGTGGAT
    CTGAGTTTTA CAGAACAAAA CATGGATCAG AGCTCTGGCA AGGTGACAGG AAGGAAATCA
    CCAGCAGTGA CCCCTGCTTA TAATGATATT CACAGTAGCT GCATTTATCT TAATGCACAA
    GATTCCTCTT GTCTCACAGG GGTCTCTGCA GAGCACAGAA GTGCAAAATC AAACCAAGAG
    ACATATGTAT CTAAACCAAG AACATACGGA GAGCAACGTC CGACCACTCA AAACAGGCGA
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_017949125.1
    CDS1006..3888
    Translation

    Target ORF information:

    RefSeq Version XM_018093636.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis AKNA domain containing 1 (aknad1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018093636.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    ATGGAGGAAA ATGATACAAC TGGGGATGAA CAAGAAGACT TGCCTTATGA TGGAATCCTT 
    GAATGTTATT TGACTTCAAA TATAGACCAA GAAGACATTA ACTATCTTGG TGAGGATACT
    GGTGGTTATC AATATGTAAT TCATCTTGGG AAAGAAAAAG CTCACTCTTT AAACAGTGCT
    GAGTGTGTTA AAGCGGAACT ACTTCCATCA AAAAATATTG ATGCTTCCAG TTTTTCTCAA
    CAAACCATTT CTGTGACTTT TGATGCTTCA GACCTGTCTT TGTCTAGCAA AGTAAATAGC
    AAGAGCTTAG AGTACCAGAG CACTGTCATT CCTGATACAC TGCACAATCA TTTTAATGGA
    GACAGTCTGT TTAATGAGTG TAATTTTATT GACCATGAGG CTATCCCAGA ATGCTCATTA
    GCTGATAGCA TTAATGGTGA TGTAATGAGT AAAATCAGTT TTTTAGACTC TAACAAGGAT
    AATGCTCAGT CGAAGCAAAT GGAAGACCAA GAAAAGTATT ATTTTGAAAG GGAATATATA
    AAGCCATTTA ATAACAAGGT TGCATTTATA TCTAACGAAG ACCTATCCAT TGATGCTTCC
    ATTCAGGAGA CAAATGTAGA GATAAATTGT GGATTACTAC GTGCAGAACA CATTTCAATA
    AAAGAACTGC AGCCTACTGA AACTGATATA ATAAACAAAG GTCTTCAAGA AAGAAGACAT
    TCTTTTCACG ATATCAAGTA TGGCCAAGGG CAGGTTAACT ACAAGCTACA GGATCTTACA
    AAAATACATC CTAAGGTAAA AATACCCAAT GGGAAGGACA GCTCTAGATC TGTCCCTAAT
    TTACAGAGAA GCAGATCATC TCCAAGTATG ATTGAACCCT CTGCTATGGT GAGAGAATTA
    CAGGACTCTA TGCAGCCTTC CAGCGAGCCT ATAAATATAA AAGACACAGT TAAGGCCTCA
    GACCAGGGAT CCCCACATGG ATCGTCTATT TATGAACTCG ACATACAGTA TTCTGAAACT
    GACCACAACC TTTTTCCAGA CAACCTCTCT AAGCAGCTGA AGGACTCATG GAGAAGCAAG
    GAAAGTGATA CAACTGGTGA TGAACAAGAA GACCTACCTT ATGATGGGAT CCTTGAATGT
    TATTTGATGC CAAATGTAAA TCAATTTGAC ATAAGCAATT CTAGTGAGGA TGCTGGAGGT
    CTTCAAAATG TAATTAATCT TGAGGAAAAA GGAAAATGTT ACTCTCCAAA TGGTGCTGAG
    TGTGTTAAGG AGGAACTGCT TATTCCTTCA GAAAATATTG ATGCTTCCAA TGCTTCAGAA
    CTGCCATTGT CTAGCAAAGG GAATAGCAAG AGCACTGTCA TTCCTGATGT CCTGCTTCGT
    CATTTTAAAG AAGACAATCT TCTTAATCCC TGTAATTTCA TTGACTGTGA GACTTTCCCA
    GAACTCTCAT TAATTGAAAG CATTGATGAA ACTGTGATCA GTAAATTAAG TTTTTTAGAC
    TATAACAATG ACAGTGCTCA GTCAGAGCGA AGTGAAGACC AAAAAAAGTA TTTTTTGGAA
    AGAGACAAAG AACCACTCAA CATCCAGAAT GAATGCACAT CTAATCAAGA GCACGTTACT
    GATTTCTACT TTCAGGAGAG AGATGGAGTG ACAAATCATG GATCAAGTGC AGAAAGTATG
    GAGATAAAAG AATTGCAGCC TACTGAAATA GATAAAACAT ACAAAGAGCA TAGATATCAA
    GAAAGAAGAC ATTCTTCCTA TGATATCAAG TATGGCCAAG GGCAGGTTCA CTACAAGTTA
    CCGGATTTCT CAAAAATACC TCCAAAGGTC AAAATACCCA AAGGGAATGG CAGCTCTAGG
    TCTGTTCCTA CATTACACAG AAGCAGATCA TCCCCAAGTA TGATTAAATC GTCAGCTGTG
    GTGAGAGAAT TACTGGACAC TATGCAGCCT TTCAGTGAGA CTGTAAATAT AACAGAAACA
    ATTGAGGCCT CAGCACTTCT AGGCCAGACA TCTGCACTTC TAGGCCAGGT ATCCCAGGCA
    CCCCAACGAC TCACATCAGT GCCTCTAAGT GTTACAGAGA CTTCCGGTCA ACCATTAAAC
    CATCAAAACT GCAGTGAAGG GCCTACCCAA GAATATATGA CTGACATTCC TTTTCAAGCT
    GTTAATTTGG CACATAAAGA AGAATGTGTG AGAGCTGCCA ACTTTCAGCT TCCAACAGAA
    GGAGAAAAAA TGGCTGACAT GCTGAGGAAA GAAGCCCAGC AGCTGCAAGT TAAAGTTGAA
    AAGCTTTCTA ATAATATAGT AAAGGAATCA TTACCGCTGA AAGAACAGTG TCTGATATTT
    CAGGATTTAA AAAGCAGTGT GGAAGCTCTA GAACTGGATT ACTTATTCAA AAAAGAGAAA
    CACCGGCAAA TGCAGCTTCA GGCTTACAGA ACAGAATCCC AGATGGTTGG GGAGTTTGAT
    CTGGAGAGAG AGGTGGAGGG GCAAATCTTC AGGCTGGAGA TGCTTCTAGA AAACATTCAA
    GAACAACTTA ATGCAAAAGT TCCATCAACT GAATCATCAG CAAATTCATA TGATACAGCA
    GTATCATCTA TATCAACGCA GGCCCATAGG AACTCAGAGA CTTTAATGCA CGCTGTGGAT
    CTGAGTTTTA CAGAACAAAA CATGGATCAG AGCTCTGGCA AGGTGACAGG AAGGAAATCA
    CCAGCAGTGA CCCCTGCTTA TAATGATATT CACAGTAGCT GCATTTATCT TAATGCACAA
    GATTCCTCTT GTCTCACAGG GGTCTCTGCA GAGCACAGAA GTGCAAAATC AAACCAAGAG
    ACATATGTAT CTAAACCAAG AACATACGGA GAGCAACGTC CGACCACTCA AAACAGGCGA
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OXa35470
    Clone ID Related Accession (Same CDS sequence) XM_012962482.2
    Accession Version XM_012962482.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3468bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product protein AKNAD1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030680.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012962482.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGGAGGAAA ATGATACAAC TGGGGATGAA CAAGAAGACT TGCCTTATGA TGGAATCCTT 
    GAATGTTATT TGACTTCAAA TATAGACCAA GAAGACATTA ACTATCTTGG TGAGGATACT
    GGTGGTTATC AATATGTAAT TCATCTTGGG AAAGAAAAAG CTCACTCTTT AAACAGTGCT
    GAGTGTGTTA AAGCGGAACT ACTTCCATCA AAAAATATTG ATGCTTCCAG TTTTTCTCAA
    CAAACCATTT CTGTGACTTT TGATGCTTCA GACCTGTCTT TGTCTAGCAA AGTAAATAGC
    AAGAGCTTAG AGTACCAGAG CACTGTCATT CCTGATACAC TGCACAATCA TTTTAATGGA
    GACAGTCTGT TTAATGAGTG TAATTTTATT GACCATGAGG CTATCCCAGA ATGCTCATTA
    GCTGATAGCA TTAATGGTGA TGTAATGAGT AAAATCAGTT TTTTAGACTC TAACAAGGAT
    AATGCTCAGT CGAAGCAAAT GGAAGACCAA GAAAAGTATT ATTTTGAAAG GGAATATATA
    AAGCCATTTA ATAACAAGGT TGCATTTATA TCTAACGAAG ACCTATCCAT TGATGCTTCC
    ATTCAGGAGA CAAATGTAGA GATAAATTGT GGATTACTAC GTGCAGAACA CATTTCAATA
    AAAGAACTGC AGCCTACTGA AACTGATATA ATAAACAAAG GTCTTCAAGA AAGAAGACAT
    TCTTTTCACG ATATCAAGTA TGGCCAAGGG CAGGTTAACT ACAAGCTACA GGATCTTACA
    AAAATACATC CTAAGGTAAA AATACCCAAT GGGAAGGACA GCTCTAGATC TGTCCCTAAT
    TTACAGAGAA GCAGATCATC TCCAAGTATG ATTGAACCCT CTGCTATGGT GAGAGAATTA
    CAGGACTCTA TGCAGCCTTC CAGCGAGCCT ATAAATATAA AAGACACAGT TAAGGCCTCA
    GACCAGGGAT CCCCACATGG ATCGTCTATT TATGAACTCG ACATACAGTA TTCTGAAACT
    GACCACAACC TTTTTCCAGA CAACCTCTCT AAGCAGCTGA AGGACTCATG GAGAAGCAAG
    GAAAGTGATA CAACTGGTGA TGAACAAGAA GACCTACCTT ATGATGGGAT CCTTGAATGT
    TATTTGATGC CAAATGTAAA TCAATTTGAC ATAAGCAATT CTAGTGAGGA TGCTGGAGGT
    CTTCAAAATG TAATTAATCT TGAGGAAAAA GGAAAATGTT ACTCTCCAAA TGGTGCTGAG
    TGTGTTAAGG AGGAACTGCT TATTCCTTCA GAAAATATTG ATGCTTCCAA TGCTTCAGAA
    CTGCCATTGT CTAGCAAAGG GAATAGCAAG AGCACTGTCA TTCCTGATGT CCTGCTTCGT
    CATTTTAAAG AAGACAATCT TCTTAATCCC TGTAATTTCA TTGACTGTGA GACTTTCCCA
    GAACTCTCAT TAATTGAAAG CATTGATGAA ACTGTGATCA GTAAATTAAG TTTTTTAGAC
    TATAACAATG ACAGTGCTCA GTCAGAGCGA AGTGAAGACC AAAAAAAGTA TTTTTTGGAA
    AGAGACAAAG AACCACTCAA CATCCAGAAT GAATGCACAT CTAATCAAGA GCACGTTACT
    GATTTCTACT TTCAGGAGAG AGATGGAGTG ACAAATCATG GATCAAGTGC AGAAAGTATG
    GAGATAAAAG AATTGCAGCC TACTGAAATA GATAAAACAT ACAAAGAGCA TAGATATCAA
    GAAAGAAGAC ATTCTTCCTA TGATATCAAG TATGGCCAAG GGCAGGTTCA CTACAAGTTA
    CCGGATTTCT CAAAAATACC TCCAAAGGTC AAAATACCCA AAGGGAATGG CAGCTCTAGG
    TCTGTTCCTA CATTACACAG AAGCAGATCA TCCCCAAGTA TGATTAAATC GTCAGCTGTG
    GTGAGAGAAT TACTGGACAC TATGCAGCCT TTCAGTGAGA CTGTAAATAT AACAGAAACA
    ATTGAGGCCT CAGCACTTCT AGGCCAGACA TCTGCACTTC TAGGCCAGGT ATCCCAGGCA
    CCCCAACGAC TCACATCAGT GCCTCTAAGT GTTACAGAGA CTTCCGGTCA ACCATTAAAC
    CATCAAAACT GCAGTGAAGG GCCTACCCAA GAATATATGA CTGACATTCC TTTTCAAGCT
    GTTAATTTGG CACATAAAGA AGAATGTGTG AGAGCTGCCA ACTTTCAGCT TCCAACAGAA
    GGAGAAAAAA TGGCTGACAT GCTGAGGAAA GAAGCCCAGC AGCTGCAAGT TAAAGTTGAA
    AAGCTTTCTA ATAATATAGT AAAGGAATCA TTACCGCTGA AAGAACAGTG TCTGATATTT
    CAGGATTTAA AAAGCAGTGT GGAAGCTCTA GAACTGGATT ACTTATTCAA AAAAGAGAAA
    CACCGGCAAA TGCAGCTTCA GGCTTACAGA ACAGAATCCC AGATGGTTGG GGAGTTTGAT
    CTGGAGAGAG AGGTGGAGGG GCAAATCTTC AGGCTGGAGA TGCTTCTAGA AAACATTCAA
    GAACAACTTA ATGCAAAAGT TCCATCAACT GAATCATCAG CAAATTCATA TGATACAGCA
    GTATCATCTA TATCAACGCA GGCCCATAGG AACTCAGAGA CTTTAATGCA CGCTGTGGAT
    CTGAGTTTTA CAGAACAAAA CATGGATCAG AGCTCTGGCA AGGTGACAGG AAGGAAATCA
    CCAGCAGTGA CCCCTGCTTA TAATGATATT CACAGTAGCT GCATTTATCT TAATGCACAA
    GATTCCTCTT GTCTCACAGG GGTCTCTGCA GAGCACAGAA GTGCAAAATC AAACCAAGAG
    ACATATGTAT CTAAACCAAG AACATACGGA GAGCAACGTC CGACCACTCA AAACAGGTAT
    TTGAGAGCGG AGGCTGCCAT CAAAAGAAAA ATGATGTCTT CAGGCAGAAG AAATGGCACA
    AGAGTTACTA AAGAAGTAGA TACAGCAGAA AATAGTTTGC CAGAATGCGA TGATATAGAA
    GATTCTTGTA GCTTAGAAGA TTCTTTTGGC TCGGATTGGA CATCATCGCA CTCTCAGATT
    TCAGAAAACA GGAGTTATGT GTCGTGGATT AAAAAAGATC ATATACGTGA AGAATCACAG
    AAGCAAAAAT CGAGGAGACC CCACACCCCA GAATACTATG GCAAGTTAAA CTTAGGCAAA
    GTGAAGTTGA ATAAGCACAG GAAGAGCATG CCAGCGTGCA GAGGCAACGT GCAGGCTCCC
    ACTTTAGAGT TTTCACGGTT TGCTGGTCTG GCATCTTCCC ACCAAACCGC CGTGAGTGCA
    GATCAGAGAA ATCTAGAGTT TATCGACTGC AAGATGTTAA ATTTTGCATT GGATAAGGCC
    ATTCGGACTG CCAGGAATAT GCAGAGGGTG ACAGAAAGAA TGGTAACCAG TTTGGCAGCA
    GGTCAGGCCA CTGGTATCTC CAGCTGGAGA TCAGAGAGTC ACTGGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_012817936.1
    CDS998..4465
    Translation

    Target ORF information:

    RefSeq Version XM_012962482.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis AKNA domain containing 1 (aknad1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012962482.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGGAGGAAA ATGATACAAC TGGGGATGAA CAAGAAGACT TGCCTTATGA TGGAATCCTT 
    GAATGTTATT TGACTTCAAA TATAGACCAA GAAGACATTA ACTATCTTGG TGAGGATACT
    GGTGGTTATC AATATGTAAT TCATCTTGGG AAAGAAAAAG CTCACTCTTT AAACAGTGCT
    GAGTGTGTTA AAGCGGAACT ACTTCCATCA AAAAATATTG ATGCTTCCAG TTTTTCTCAA
    CAAACCATTT CTGTGACTTT TGATGCTTCA GACCTGTCTT TGTCTAGCAA AGTAAATAGC
    AAGAGCTTAG AGTACCAGAG CACTGTCATT CCTGATACAC TGCACAATCA TTTTAATGGA
    GACAGTCTGT TTAATGAGTG TAATTTTATT GACCATGAGG CTATCCCAGA ATGCTCATTA
    GCTGATAGCA TTAATGGTGA TGTAATGAGT AAAATCAGTT TTTTAGACTC TAACAAGGAT
    AATGCTCAGT CGAAGCAAAT GGAAGACCAA GAAAAGTATT ATTTTGAAAG GGAATATATA
    AAGCCATTTA ATAACAAGGT TGCATTTATA TCTAACGAAG ACCTATCCAT TGATGCTTCC
    ATTCAGGAGA CAAATGTAGA GATAAATTGT GGATTACTAC GTGCAGAACA CATTTCAATA
    AAAGAACTGC AGCCTACTGA AACTGATATA ATAAACAAAG GTCTTCAAGA AAGAAGACAT
    TCTTTTCACG ATATCAAGTA TGGCCAAGGG CAGGTTAACT ACAAGCTACA GGATCTTACA
    AAAATACATC CTAAGGTAAA AATACCCAAT GGGAAGGACA GCTCTAGATC TGTCCCTAAT
    TTACAGAGAA GCAGATCATC TCCAAGTATG ATTGAACCCT CTGCTATGGT GAGAGAATTA
    CAGGACTCTA TGCAGCCTTC CAGCGAGCCT ATAAATATAA AAGACACAGT TAAGGCCTCA
    GACCAGGGAT CCCCACATGG ATCGTCTATT TATGAACTCG ACATACAGTA TTCTGAAACT
    GACCACAACC TTTTTCCAGA CAACCTCTCT AAGCAGCTGA AGGACTCATG GAGAAGCAAG
    GAAAGTGATA CAACTGGTGA TGAACAAGAA GACCTACCTT ATGATGGGAT CCTTGAATGT
    TATTTGATGC CAAATGTAAA TCAATTTGAC ATAAGCAATT CTAGTGAGGA TGCTGGAGGT
    CTTCAAAATG TAATTAATCT TGAGGAAAAA GGAAAATGTT ACTCTCCAAA TGGTGCTGAG
    TGTGTTAAGG AGGAACTGCT TATTCCTTCA GAAAATATTG ATGCTTCCAA TGCTTCAGAA
    CTGCCATTGT CTAGCAAAGG GAATAGCAAG AGCACTGTCA TTCCTGATGT CCTGCTTCGT
    CATTTTAAAG AAGACAATCT TCTTAATCCC TGTAATTTCA TTGACTGTGA GACTTTCCCA
    GAACTCTCAT TAATTGAAAG CATTGATGAA ACTGTGATCA GTAAATTAAG TTTTTTAGAC
    TATAACAATG ACAGTGCTCA GTCAGAGCGA AGTGAAGACC AAAAAAAGTA TTTTTTGGAA
    AGAGACAAAG AACCACTCAA CATCCAGAAT GAATGCACAT CTAATCAAGA GCACGTTACT
    GATTTCTACT TTCAGGAGAG AGATGGAGTG ACAAATCATG GATCAAGTGC AGAAAGTATG
    GAGATAAAAG AATTGCAGCC TACTGAAATA GATAAAACAT ACAAAGAGCA TAGATATCAA
    GAAAGAAGAC ATTCTTCCTA TGATATCAAG TATGGCCAAG GGCAGGTTCA CTACAAGTTA
    CCGGATTTCT CAAAAATACC TCCAAAGGTC AAAATACCCA AAGGGAATGG CAGCTCTAGG
    TCTGTTCCTA CATTACACAG AAGCAGATCA TCCCCAAGTA TGATTAAATC GTCAGCTGTG
    GTGAGAGAAT TACTGGACAC TATGCAGCCT TTCAGTGAGA CTGTAAATAT AACAGAAACA
    ATTGAGGCCT CAGCACTTCT AGGCCAGACA TCTGCACTTC TAGGCCAGGT ATCCCAGGCA
    CCCCAACGAC TCACATCAGT GCCTCTAAGT GTTACAGAGA CTTCCGGTCA ACCATTAAAC
    CATCAAAACT GCAGTGAAGG GCCTACCCAA GAATATATGA CTGACATTCC TTTTCAAGCT
    GTTAATTTGG CACATAAAGA AGAATGTGTG AGAGCTGCCA ACTTTCAGCT TCCAACAGAA
    GGAGAAAAAA TGGCTGACAT GCTGAGGAAA GAAGCCCAGC AGCTGCAAGT TAAAGTTGAA
    AAGCTTTCTA ATAATATAGT AAAGGAATCA TTACCGCTGA AAGAACAGTG TCTGATATTT
    CAGGATTTAA AAAGCAGTGT GGAAGCTCTA GAACTGGATT ACTTATTCAA AAAAGAGAAA
    CACCGGCAAA TGCAGCTTCA GGCTTACAGA ACAGAATCCC AGATGGTTGG GGAGTTTGAT
    CTGGAGAGAG AGGTGGAGGG GCAAATCTTC AGGCTGGAGA TGCTTCTAGA AAACATTCAA
    GAACAACTTA ATGCAAAAGT TCCATCAACT GAATCATCAG CAAATTCATA TGATACAGCA
    GTATCATCTA TATCAACGCA GGCCCATAGG AACTCAGAGA CTTTAATGCA CGCTGTGGAT
    CTGAGTTTTA CAGAACAAAA CATGGATCAG AGCTCTGGCA AGGTGACAGG AAGGAAATCA
    CCAGCAGTGA CCCCTGCTTA TAATGATATT CACAGTAGCT GCATTTATCT TAATGCACAA
    GATTCCTCTT GTCTCACAGG GGTCTCTGCA GAGCACAGAA GTGCAAAATC AAACCAAGAG
    ACATATGTAT CTAAACCAAG AACATACGGA GAGCAACGTC CGACCACTCA AAACAGGTAT
    TTGAGAGCGG AGGCTGCCAT CAAAAGAAAA ATGATGTCTT CAGGCAGAAG AAATGGCACA
    AGAGTTACTA AAGAAGTAGA TACAGCAGAA AATAGTTTGC CAGAATGCGA TGATATAGAA
    GATTCTTGTA GCTTAGAAGA TTCTTTTGGC TCGGATTGGA CATCATCGCA CTCTCAGATT
    TCAGAAAACA GGAGTTATGT GTCGTGGATT AAAAAAGATC ATATACGTGA AGAATCACAG
    AAGCAAAAAT CGAGGAGACC CCACACCCCA GAATACTATG GCAAGTTAAA CTTAGGCAAA
    GTGAAGTTGA ATAAGCACAG GAAGAGCATG CCAGCGTGCA GAGGCAACGT GCAGGCTCCC
    ACTTTAGAGT TTTCACGGTT TGCTGGTCTG GCATCTTCCC ACCAAACCGC CGTGAGTGCA
    GATCAGAGAA ATCTAGAGTT TATCGACTGC AAGATGTTAA ATTTTGCATT GGATAAGGCC
    ATTCGGACTG CCAGGAATAT GCAGAGGGTG ACAGAAAGAA TGGTAACCAG TTTGGCAGCA
    GGTCAGGCCA CTGGTATCTC CAGCTGGAGA TCAGAGAGTC ACTGGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OXa35471
    Clone ID Related Accession (Same CDS sequence) XM_012962485.2
    Accession Version XM_012962485.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3450bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product protein AKNAD1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030680.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012962485.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGGAGGAAA ATGATACAAC TGGGGATGAA CAAGAAGACT TGCCTTATGA TGGAATCCTT 
    GAATGTTATT TGACTTCAAA TATAGACCAA GAAGACATTA ACTATCTTGG TGAGGATACT
    GGTGGTTATC AATATGTAAT TCATCTTGGG AAAGAAAAAG CTCACTCTTT AAACAGTGCT
    GAGTGTGTTA AAGCGGAACT ACTTCCATCA AAAAATATTG ATGCTTCCAG TTTTTCTCAA
    CAAACCATTT CTGTGACTTT TGATGCTTCA GACCTGTCTT TGTCTAGCAA AGTAAATAGC
    AAGAGCTTAG AGTACCAGAG CACTGTCATT CCTGATACAC TGCACAATCA TTTTAATGGA
    GACAGTCTGT TTAATGAGTG TAATTTTATT GACCATGAGG CTATCCCAGA ATGCTCATTA
    GCTGATAGCA TTAATGGTGA TGTAATGAGT AAAATCAGTT TTTTAGACTC TAACAAGGAT
    AATGCTCAGT CGAAGCAAAT GGAAGACCAA GAAAAGTATT ATTTTGAAAG GGAATATATA
    AAGCCATTTA ATAACAAGGT TGCATTTATA TCTAACGAAG ACCTATCCAT TGATGCTTCC
    ATTCAGGAGA CAAATGTAGA GATAAATTGT GGATTACTAC GTGCAGAACA CATTTCAATA
    AAAGAACTGC AGCCTACTGA AACTGATATA ATAAACAAAG GTCTTCAAGA AAGAAGACAT
    TCTTTTCACG ATATCAAGTA TGGCCAAGGG CAGGTTAACT ACAAGCTACA GGATCTTACA
    AAAATACATC CTAAGGTAAA AATACCCAAT GGGAAGGACA GCTCTAGATC TGTCCCTAAT
    TTACAGAGAA GCAGATCATC TCCAAGTATG ATTGAACCCT CTGCTATGGT GAGAGAATTA
    CAGGACTCTA TGCAGCCTTC CAGCGAGCCT ATAAATATAA AAGACACAGT TAAGGCCTCA
    GACCAGGGAT CCCCACATGG ATCGTCTATT TATGAACTCG ACATACAGTA TTCTGAAACT
    GACCACAACC TTTTTCCAGA CAACCTCTCT AAGCAGCTGA AGGACTCATG GAGAAGCAAG
    GAAAGTGATA CAACTGGTGA TGAACAAGAA GACCTACCTT ATGATGGGAT CCTTGAATGT
    TATTTGATGC CAAATGTAAA TCAATTTGAC ATAAGCAATT CTAGTGAGGA TGCTGGAGGT
    CTTCAAAATG TAATTAATCT TGAGGAAAAA GGAAAATGTT ACTCTCCAAA TGGTGCTGAG
    TGTGTTAAGG AGGAACTGCT TATTCCTTCA GAAAATATTG ATGCTTCCAA TGCTTCAGAA
    CTGCCATTGT CTAGCAAAGG GAATAGCAAG AGCACTGTCA TTCCTGATGT CCTGCTTCGT
    CATTTTAAAG AAGACAATCT TCTTAATCCC TGTAATTTCA TTGACTGTGA GACTTTCCCA
    GAACTCTCAT TAATTGAAAG CATTGATGAA ACTGTGATCA GTAAATTAAG TTTTTTAGAC
    TATAACAATG ACAGTGCTCA GTCAGAGCGA AGTGAAGACC AAAAAAAGTA TTTTTTGGAA
    AGAGACAAAG AACCACTCAA CATCCAGAAT GAATGCACAT CTAATCAAGA GCACGTTACT
    GATTTCTACT TTCAGGAGAG AGATGGAGTG ACAAATCATG GATCAAGTGC AGAAAGTATG
    GAGATAAAAG AATTGCAGCC TACTGAAATA GATAAAACAT ACAAAGAGCA TAGATATCAA
    GAAAGAAGAC ATTCTTCCTA TGATATCAAG TATGGCCAAG GGCAGGTTCA CTACAAGTTA
    CCGGATTTCT CAAAAATACC TCCAAAGGTC AAAATACCCA AAGGGAATGG CAGCTCTAGG
    TCTGTTCCTA CATTACACAG AAGCAGATCA TCCCCAAGTA TGATTAAATC GTCAGCTGTG
    GTGAGAGAAT TACTGGACAC TATGCAGCCT TTCAGTGAGA CTGTAAATAT AACAGAAACA
    ATTGAGGCCT CAGCACTTCT AGGCCAGACA TCTGCACTTC TAGGCCAGGT ATCCCAGGCA
    CCCCAACGAC TCACATCAGT GCCTCTAAGT GTTACAGAGA CTTCCGGTCA ACCATTAAAC
    CATCAAAACT GCAGTGAAGG GCCTACCCAA GAATATATGA CTGACATTCC TTTTCAAGCT
    GTTAATTTGG CACATAAAGA AGAATGTGTG AGAGCTGCCA ACTTTCAGCT TCCAACAGAA
    GGAGAAAAAA TGGCTGACAT GCTGAGGAAA GAAGCCCAGC AGCTGCAAGT TAAAGTTGAA
    AAGCTTTCTA ATAATATAGT AAAGGAATCA TTACCGCTGA AAGAACAGTG TCTGATATTT
    CAGGATTTAA AAAGCAGTGT GGAAGCTCTA GAACTGGATT ACTTATTCAA AAAAGAGAAA
    CACCGGCAAA TGCAGCTTCA GGCTTACAGA ACAGAATCCC AGATGGTTGG GGAGTTTGAT
    CTGGAGAGAG AGGTGGAGGG GCAAATCTTC AGGCTGGAGA TGCTTCTAGA AAACATTCAA
    GAACAACTTA ATGCAAAAGT TCCATCAACT GAATCATCAG CAAATTCATA TGATACAGCA
    GTATCATCTA TATCAACGCA GGCCCATAGG AACTCAGAGA CTTTAATGCA CGCTGTGGAT
    CTGAGTTTTA CAGAACAAAA CATGGATCAG AGCTCTGGCA AGGTGACAGG AAGGAAATCA
    CCAGCAGTGA CCCCTGCTTA TAATGATATT CACAGTAGCT GCATTTATCT TAATGCACAA
    GGGGTCTCTG CAGAGCACAG AAGTGCAAAA TCAAACCAAG AGACATATGT ATCTAAACCA
    AGAACATACG GAGAGCAACG TCCGACCACT CAAAACAGGT ATTTGAGAGC GGAGGCTGCC
    ATCAAAAGAA AAATGATGTC TTCAGGCAGA AGAAATGGCA CAAGAGTTAC TAAAGAAGTA
    GATACAGCAG AAAATAGTTT GCCAGAATGC GATGATATAG AAGATTCTTG TAGCTTAGAA
    GATTCTTTTG GCTCGGATTG GACATCATCG CACTCTCAGA TTTCAGAAAA CAGGAGTTAT
    GTGTCGTGGA TTAAAAAAGA TCATATACGT GAAGAATCAC AGAAGCAAAA ATCGAGGAGA
    CCCCACACCC CAGAATACTA TGGCAAGTTA AACTTAGGCA AAGTGAAGTT GAATAAGCAC
    AGGAAGAGCA TGCCAGCGTG CAGAGGCAAC GTGCAGGCTC CCACTTTAGA GTTTTCACGG
    TTTGCTGGTC TGGCATCTTC CCACCAAACC GCCGTGAGTG CAGATCAGAG AAATCTAGAG
    TTTATCGACT GCAAGATGTT AAATTTTGCA TTGGATAAGG CCATTCGGAC TGCCAGGAAT
    ATGCAGAGGG TGACAGAAAG AATGGTAACC AGTTTGGCAG CAGGTCAGGC CACTGGTATC
    TCCAGCTGGA GATCAGAGAG TCACTGGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_012817939.1
    CDS998..4447
    Translation

    Target ORF information:

    RefSeq Version XM_012962485.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis AKNA domain containing 1 (aknad1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012962485.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGGAGGAAA ATGATACAAC TGGGGATGAA CAAGAAGACT TGCCTTATGA TGGAATCCTT 
    GAATGTTATT TGACTTCAAA TATAGACCAA GAAGACATTA ACTATCTTGG TGAGGATACT
    GGTGGTTATC AATATGTAAT TCATCTTGGG AAAGAAAAAG CTCACTCTTT AAACAGTGCT
    GAGTGTGTTA AAGCGGAACT ACTTCCATCA AAAAATATTG ATGCTTCCAG TTTTTCTCAA
    CAAACCATTT CTGTGACTTT TGATGCTTCA GACCTGTCTT TGTCTAGCAA AGTAAATAGC
    AAGAGCTTAG AGTACCAGAG CACTGTCATT CCTGATACAC TGCACAATCA TTTTAATGGA
    GACAGTCTGT TTAATGAGTG TAATTTTATT GACCATGAGG CTATCCCAGA ATGCTCATTA
    GCTGATAGCA TTAATGGTGA TGTAATGAGT AAAATCAGTT TTTTAGACTC TAACAAGGAT
    AATGCTCAGT CGAAGCAAAT GGAAGACCAA GAAAAGTATT ATTTTGAAAG GGAATATATA
    AAGCCATTTA ATAACAAGGT TGCATTTATA TCTAACGAAG ACCTATCCAT TGATGCTTCC
    ATTCAGGAGA CAAATGTAGA GATAAATTGT GGATTACTAC GTGCAGAACA CATTTCAATA
    AAAGAACTGC AGCCTACTGA AACTGATATA ATAAACAAAG GTCTTCAAGA AAGAAGACAT
    TCTTTTCACG ATATCAAGTA TGGCCAAGGG CAGGTTAACT ACAAGCTACA GGATCTTACA
    AAAATACATC CTAAGGTAAA AATACCCAAT GGGAAGGACA GCTCTAGATC TGTCCCTAAT
    TTACAGAGAA GCAGATCATC TCCAAGTATG ATTGAACCCT CTGCTATGGT GAGAGAATTA
    CAGGACTCTA TGCAGCCTTC CAGCGAGCCT ATAAATATAA AAGACACAGT TAAGGCCTCA
    GACCAGGGAT CCCCACATGG ATCGTCTATT TATGAACTCG ACATACAGTA TTCTGAAACT
    GACCACAACC TTTTTCCAGA CAACCTCTCT AAGCAGCTGA AGGACTCATG GAGAAGCAAG
    GAAAGTGATA CAACTGGTGA TGAACAAGAA GACCTACCTT ATGATGGGAT CCTTGAATGT
    TATTTGATGC CAAATGTAAA TCAATTTGAC ATAAGCAATT CTAGTGAGGA TGCTGGAGGT
    CTTCAAAATG TAATTAATCT TGAGGAAAAA GGAAAATGTT ACTCTCCAAA TGGTGCTGAG
    TGTGTTAAGG AGGAACTGCT TATTCCTTCA GAAAATATTG ATGCTTCCAA TGCTTCAGAA
    CTGCCATTGT CTAGCAAAGG GAATAGCAAG AGCACTGTCA TTCCTGATGT CCTGCTTCGT
    CATTTTAAAG AAGACAATCT TCTTAATCCC TGTAATTTCA TTGACTGTGA GACTTTCCCA
    GAACTCTCAT TAATTGAAAG CATTGATGAA ACTGTGATCA GTAAATTAAG TTTTTTAGAC
    TATAACAATG ACAGTGCTCA GTCAGAGCGA AGTGAAGACC AAAAAAAGTA TTTTTTGGAA
    AGAGACAAAG AACCACTCAA CATCCAGAAT GAATGCACAT CTAATCAAGA GCACGTTACT
    GATTTCTACT TTCAGGAGAG AGATGGAGTG ACAAATCATG GATCAAGTGC AGAAAGTATG
    GAGATAAAAG AATTGCAGCC TACTGAAATA GATAAAACAT ACAAAGAGCA TAGATATCAA
    GAAAGAAGAC ATTCTTCCTA TGATATCAAG TATGGCCAAG GGCAGGTTCA CTACAAGTTA
    CCGGATTTCT CAAAAATACC TCCAAAGGTC AAAATACCCA AAGGGAATGG CAGCTCTAGG
    TCTGTTCCTA CATTACACAG AAGCAGATCA TCCCCAAGTA TGATTAAATC GTCAGCTGTG
    GTGAGAGAAT TACTGGACAC TATGCAGCCT TTCAGTGAGA CTGTAAATAT AACAGAAACA
    ATTGAGGCCT CAGCACTTCT AGGCCAGACA TCTGCACTTC TAGGCCAGGT ATCCCAGGCA
    CCCCAACGAC TCACATCAGT GCCTCTAAGT GTTACAGAGA CTTCCGGTCA ACCATTAAAC
    CATCAAAACT GCAGTGAAGG GCCTACCCAA GAATATATGA CTGACATTCC TTTTCAAGCT
    GTTAATTTGG CACATAAAGA AGAATGTGTG AGAGCTGCCA ACTTTCAGCT TCCAACAGAA
    GGAGAAAAAA TGGCTGACAT GCTGAGGAAA GAAGCCCAGC AGCTGCAAGT TAAAGTTGAA
    AAGCTTTCTA ATAATATAGT AAAGGAATCA TTACCGCTGA AAGAACAGTG TCTGATATTT
    CAGGATTTAA AAAGCAGTGT GGAAGCTCTA GAACTGGATT ACTTATTCAA AAAAGAGAAA
    CACCGGCAAA TGCAGCTTCA GGCTTACAGA ACAGAATCCC AGATGGTTGG GGAGTTTGAT
    CTGGAGAGAG AGGTGGAGGG GCAAATCTTC AGGCTGGAGA TGCTTCTAGA AAACATTCAA
    GAACAACTTA ATGCAAAAGT TCCATCAACT GAATCATCAG CAAATTCATA TGATACAGCA
    GTATCATCTA TATCAACGCA GGCCCATAGG AACTCAGAGA CTTTAATGCA CGCTGTGGAT
    CTGAGTTTTA CAGAACAAAA CATGGATCAG AGCTCTGGCA AGGTGACAGG AAGGAAATCA
    CCAGCAGTGA CCCCTGCTTA TAATGATATT CACAGTAGCT GCATTTATCT TAATGCACAA
    GGGGTCTCTG CAGAGCACAG AAGTGCAAAA TCAAACCAAG AGACATATGT ATCTAAACCA
    AGAACATACG GAGAGCAACG TCCGACCACT CAAAACAGGT ATTTGAGAGC GGAGGCTGCC
    ATCAAAAGAA AAATGATGTC TTCAGGCAGA AGAAATGGCA CAAGAGTTAC TAAAGAAGTA
    GATACAGCAG AAAATAGTTT GCCAGAATGC GATGATATAG AAGATTCTTG TAGCTTAGAA
    GATTCTTTTG GCTCGGATTG GACATCATCG CACTCTCAGA TTTCAGAAAA CAGGAGTTAT
    GTGTCGTGGA TTAAAAAAGA TCATATACGT GAAGAATCAC AGAAGCAAAA ATCGAGGAGA
    CCCCACACCC CAGAATACTA TGGCAAGTTA AACTTAGGCA AAGTGAAGTT GAATAAGCAC
    AGGAAGAGCA TGCCAGCGTG CAGAGGCAAC GTGCAGGCTC CCACTTTAGA GTTTTCACGG
    TTTGCTGGTC TGGCATCTTC CCACCAAACC GCCGTGAGTG CAGATCAGAG AAATCTAGAG
    TTTATCGACT GCAAGATGTT AAATTTTGCA TTGGATAAGG CCATTCGGAC TGCCAGGAAT
    ATGCAGAGGG TGACAGAAAG AATGGTAACC AGTTTGGCAG CAGGTCAGGC CACTGGTATC
    TCCAGCTGGA GATCAGAGAG TCACTGGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OXa35472
    Clone ID Related Accession (Same CDS sequence) XM_002932172.4
    Accession Version XM_002932172.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3408bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product protein AKNAD1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030680.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_002932172.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGGAGGAAA ATGATACAAC TGGGGATGAA CAAGAAGACT TGCCTTATGA TGGAATCCTT 
    GAATGTTATT TGACTTCAAA TATAGACCAA GAAGACATTA ACTATCTTGG TGAGGATACT
    GGTGGTTATC AATATGTAAT TCATCTTGGG AAAGAAAAAG CTCACTCTTT AAACAGTGCT
    GAGTGTGTTA AAGCGGAACT ACTTCCATCA AAAAATATTG ATGCTTCCAG TTTTTCTCAA
    CAAACCATTT CTGTGACTTT TGATGCTTCA GACCTGTCTT TGTCTAGCAA AGTAAATAGC
    AAGAGCTTAG AGTACCAGAG CACTGTCATT CCTGATACAC TGCACAATCA TTTTAATGGA
    GACAGTCTGT TTAATGAGTG TAATTTTATT GACCATGAGG CTATCCCAGA ATGCTCATTA
    GCTGATAGCA TTAATGGTGA TGTAATGAGT AAAATCAGTT TTTTAGACTC TAACAAGGAT
    AATGCTCAGT CGAAGCAAAT GGAAGACCAA GAAAAGTATT ATTTTGAAAG GGAATATATA
    AAGCCATTTA ATAACAAGGT TGCATTTATA TCTAACGAAG ACCTATCCAT TGATGCTTCC
    ATTCAGGAGA CAAATGTAGA GATAAATTGT GGATTACTAC GTGCAGAACA CATTTCAATA
    AAAGAACTGC AGCCTACTGA AACTGATATA ATAAACAAAG GTCTTCAAGA AAGAAGACAT
    TCTTTTCACG ATATCAAGTA TGGCCAAGGG CAGGTTAACT ACAAGCTACA GGATCTTACA
    AAAATACATC CTAAGGTAAA AATACCCAAT GGGAAGGACA GCTCTAGATC TGTCCCTAAT
    TTACAGAGAA GCAGATCATC TCCAAGTATG ATTGAACCCT CTGCTATGGT GAGAGAATTA
    CAGGACTCTA TGCAGCCTTC CAGCGAGCCT ATAAATATAA AAGACACAGT TAAGGCCTCA
    GACCAGGGAT CCCCACATGG ATCGTCTATT TATGAACTCG ACATACAGTA TTCTGAAACT
    GACCACAACC TTTTTCCAGA CAACCTCTCT AAGCAGCTGA AGGACTCATG GAGAAGCAAG
    GAAAGTGATA CAACTGGTGA TGAACAAGAA GACCTACCTT ATGATGGGAT CCTTGAATGT
    TATTTGATGC CAAATGTAAA TCAATTTGAC ATAAGCAATT CTAGTGAGGA TGCTGGAGGT
    CTTCAAAATG TAATTAATCT TGAGGAAAAA GGAAAATGTT ACTCTCCAAA TGGTGCTGAG
    TGTGTTAAGG AGGAACTGCT TATTCCTTCA GAAAATATTG ATGCTTCCAA TGCTTCAGAA
    CTGCCATTGT CTAGCAAAGG GAATAGCAAG AGCACTGTCA TTCCTGATGT CCTGCTTCGT
    CATTTTAAAG AAGACAATCT TCTTAATCCC TGTAATTTCA TTGACTGTGA GACTTTCCCA
    GAACTCTCAT TAATTGAAAG CATTGATGAA ACTGTGATCA GTAAATTAAG TTTTTTAGAC
    TATAACAATG ACAGTGCTCA GTCAGAGCGA AGTGAAGACC AAAAAAAGTA TTTTTTGGAA
    AGAGACAAAG AACCACTCAA CATCCAGAAT GAATGCACAT CTAATCAAGA GCACGTTACT
    GATTTCTACT TTCAGGAGAG AGATGGAGTG ACAAATCATG GATCAAGTGC AGAAAGTATG
    GAGATAAAAG AATTGCAGCC TACTGAAATA GATAAAACAT ACAAAGAGCA TAGATATCAA
    GAAAGAAGAC ATTCTTCCTA TGATATCAAG TATGGCCAAG GGCAGGTTCA CTACAAGTTA
    CCGGATTTCT CAAAAATACC TCCAAAGGTC AAAATACCCA AAGGGAATGG CAGCTCTAGG
    TCTGTTCCTA CATTACACAG AAGCAGATCA TCCCCAAGTA TGATTAAATC GTCAGCTGTG
    GTGAGAGAAT TACTGGACAC TATGCAGCCT TTCAGTGAGA CTGTAAATAT AACAGAAACA
    ATTGAGGCCT CAGCACTTCT AGGCCAGACA TCTGCACTTC TAGGCCAGGT ATCCCAGGCA
    CCCCAACGAC TCACATCAGT GCCTCTAAGT GTTACAGAGA CTTCCGGTCA ACCATTAAAC
    CATCAAAACT GCAGTGAAGG GCCTACCCAA GAATATATGA CTGACATTCC TTTTCAAGCT
    GTTAATTTGG CACATAAAGA AGAATGTGTG AGAGCTGCCA ACTTTCAGCT TCCAACAGAA
    GGAGAAAAAA TGGCTGACAT GCTGAGGAAA GAAGCCCAGC AGCTGCAAGT TAAAATATTT
    CAGGATTTAA AAAGCAGTGT GGAAGCTCTA GAACTGGATT ACTTATTCAA AAAAGAGAAA
    CACCGGCAAA TGCAGCTTCA GGCTTACAGA ACAGAATCCC AGATGGTTGG GGAGTTTGAT
    CTGGAGAGAG AGGTGGAGGG GCAAATCTTC AGGCTGGAGA TGCTTCTAGA AAACATTCAA
    GAACAACTTA ATGCAAAAGT TCCATCAACT GAATCATCAG CAAATTCATA TGATACAGCA
    GTATCATCTA TATCAACGCA GGCCCATAGG AACTCAGAGA CTTTAATGCA CGCTGTGGAT
    CTGAGTTTTA CAGAACAAAA CATGGATCAG AGCTCTGGCA AGGTGACAGG AAGGAAATCA
    CCAGCAGTGA CCCCTGCTTA TAATGATATT CACAGTAGCT GCATTTATCT TAATGCACAA
    GATTCCTCTT GTCTCACAGG GGTCTCTGCA GAGCACAGAA GTGCAAAATC AAACCAAGAG
    ACATATGTAT CTAAACCAAG AACATACGGA GAGCAACGTC CGACCACTCA AAACAGGTAT
    TTGAGAGCGG AGGCTGCCAT CAAAAGAAAA ATGATGTCTT CAGGCAGAAG AAATGGCACA
    AGAGTTACTA AAGAAGTAGA TACAGCAGAA AATAGTTTGC CAGAATGCGA TGATATAGAA
    GATTCTTGTA GCTTAGAAGA TTCTTTTGGC TCGGATTGGA CATCATCGCA CTCTCAGATT
    TCAGAAAACA GGAGTTATGT GTCGTGGATT AAAAAAGATC ATATACGTGA AGAATCACAG
    AAGCAAAAAT CGAGGAGACC CCACACCCCA GAATACTATG GCAAGTTAAA CTTAGGCAAA
    GTGAAGTTGA ATAAGCACAG GAAGAGCATG CCAGCGTGCA GAGGCAACGT GCAGGCTCCC
    ACTTTAGAGT TTTCACGGTT TGCTGGTCTG GCATCTTCCC ACCAAACCGC CGTGAGTGCA
    GATCAGAGAA ATCTAGAGTT TATCGACTGC AAGATGTTAA ATTTTGCATT GGATAAGGCC
    ATTCGGACTG CCAGGAATAT GCAGAGGGTG ACAGAAAGAA TGGTAACCAG TTTGGCAGCA
    GGTCAGGCCA CTGGTATCTC CAGCTGGAGA TCAGAGAGTC ACTGGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_002932218.3
    CDS998..4405
    Translation

    Target ORF information:

    RefSeq Version XM_002932172.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis AKNA domain containing 1 (aknad1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002932172.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGGAGGAAA ATGATACAAC TGGGGATGAA CAAGAAGACT TGCCTTATGA TGGAATCCTT 
    GAATGTTATT TGACTTCAAA TATAGACCAA GAAGACATTA ACTATCTTGG TGAGGATACT
    GGTGGTTATC AATATGTAAT TCATCTTGGG AAAGAAAAAG CTCACTCTTT AAACAGTGCT
    GAGTGTGTTA AAGCGGAACT ACTTCCATCA AAAAATATTG ATGCTTCCAG TTTTTCTCAA
    CAAACCATTT CTGTGACTTT TGATGCTTCA GACCTGTCTT TGTCTAGCAA AGTAAATAGC
    AAGAGCTTAG AGTACCAGAG CACTGTCATT CCTGATACAC TGCACAATCA TTTTAATGGA
    GACAGTCTGT TTAATGAGTG TAATTTTATT GACCATGAGG CTATCCCAGA ATGCTCATTA
    GCTGATAGCA TTAATGGTGA TGTAATGAGT AAAATCAGTT TTTTAGACTC TAACAAGGAT
    AATGCTCAGT CGAAGCAAAT GGAAGACCAA GAAAAGTATT ATTTTGAAAG GGAATATATA
    AAGCCATTTA ATAACAAGGT TGCATTTATA TCTAACGAAG ACCTATCCAT TGATGCTTCC
    ATTCAGGAGA CAAATGTAGA GATAAATTGT GGATTACTAC GTGCAGAACA CATTTCAATA
    AAAGAACTGC AGCCTACTGA AACTGATATA ATAAACAAAG GTCTTCAAGA AAGAAGACAT
    TCTTTTCACG ATATCAAGTA TGGCCAAGGG CAGGTTAACT ACAAGCTACA GGATCTTACA
    AAAATACATC CTAAGGTAAA AATACCCAAT GGGAAGGACA GCTCTAGATC TGTCCCTAAT
    TTACAGAGAA GCAGATCATC TCCAAGTATG ATTGAACCCT CTGCTATGGT GAGAGAATTA
    CAGGACTCTA TGCAGCCTTC CAGCGAGCCT ATAAATATAA AAGACACAGT TAAGGCCTCA
    GACCAGGGAT CCCCACATGG ATCGTCTATT TATGAACTCG ACATACAGTA TTCTGAAACT
    GACCACAACC TTTTTCCAGA CAACCTCTCT AAGCAGCTGA AGGACTCATG GAGAAGCAAG
    GAAAGTGATA CAACTGGTGA TGAACAAGAA GACCTACCTT ATGATGGGAT CCTTGAATGT
    TATTTGATGC CAAATGTAAA TCAATTTGAC ATAAGCAATT CTAGTGAGGA TGCTGGAGGT
    CTTCAAAATG TAATTAATCT TGAGGAAAAA GGAAAATGTT ACTCTCCAAA TGGTGCTGAG
    TGTGTTAAGG AGGAACTGCT TATTCCTTCA GAAAATATTG ATGCTTCCAA TGCTTCAGAA
    CTGCCATTGT CTAGCAAAGG GAATAGCAAG AGCACTGTCA TTCCTGATGT CCTGCTTCGT
    CATTTTAAAG AAGACAATCT TCTTAATCCC TGTAATTTCA TTGACTGTGA GACTTTCCCA
    GAACTCTCAT TAATTGAAAG CATTGATGAA ACTGTGATCA GTAAATTAAG TTTTTTAGAC
    TATAACAATG ACAGTGCTCA GTCAGAGCGA AGTGAAGACC AAAAAAAGTA TTTTTTGGAA
    AGAGACAAAG AACCACTCAA CATCCAGAAT GAATGCACAT CTAATCAAGA GCACGTTACT
    GATTTCTACT TTCAGGAGAG AGATGGAGTG ACAAATCATG GATCAAGTGC AGAAAGTATG
    GAGATAAAAG AATTGCAGCC TACTGAAATA GATAAAACAT ACAAAGAGCA TAGATATCAA
    GAAAGAAGAC ATTCTTCCTA TGATATCAAG TATGGCCAAG GGCAGGTTCA CTACAAGTTA
    CCGGATTTCT CAAAAATACC TCCAAAGGTC AAAATACCCA AAGGGAATGG CAGCTCTAGG
    TCTGTTCCTA CATTACACAG AAGCAGATCA TCCCCAAGTA TGATTAAATC GTCAGCTGTG
    GTGAGAGAAT TACTGGACAC TATGCAGCCT TTCAGTGAGA CTGTAAATAT AACAGAAACA
    ATTGAGGCCT CAGCACTTCT AGGCCAGACA TCTGCACTTC TAGGCCAGGT ATCCCAGGCA
    CCCCAACGAC TCACATCAGT GCCTCTAAGT GTTACAGAGA CTTCCGGTCA ACCATTAAAC
    CATCAAAACT GCAGTGAAGG GCCTACCCAA GAATATATGA CTGACATTCC TTTTCAAGCT
    GTTAATTTGG CACATAAAGA AGAATGTGTG AGAGCTGCCA ACTTTCAGCT TCCAACAGAA
    GGAGAAAAAA TGGCTGACAT GCTGAGGAAA GAAGCCCAGC AGCTGCAAGT TAAAATATTT
    CAGGATTTAA AAAGCAGTGT GGAAGCTCTA GAACTGGATT ACTTATTCAA AAAAGAGAAA
    CACCGGCAAA TGCAGCTTCA GGCTTACAGA ACAGAATCCC AGATGGTTGG GGAGTTTGAT
    CTGGAGAGAG AGGTGGAGGG GCAAATCTTC AGGCTGGAGA TGCTTCTAGA AAACATTCAA
    GAACAACTTA ATGCAAAAGT TCCATCAACT GAATCATCAG CAAATTCATA TGATACAGCA
    GTATCATCTA TATCAACGCA GGCCCATAGG AACTCAGAGA CTTTAATGCA CGCTGTGGAT
    CTGAGTTTTA CAGAACAAAA CATGGATCAG AGCTCTGGCA AGGTGACAGG AAGGAAATCA
    CCAGCAGTGA CCCCTGCTTA TAATGATATT CACAGTAGCT GCATTTATCT TAATGCACAA
    GATTCCTCTT GTCTCACAGG GGTCTCTGCA GAGCACAGAA GTGCAAAATC AAACCAAGAG
    ACATATGTAT CTAAACCAAG AACATACGGA GAGCAACGTC CGACCACTCA AAACAGGTAT
    TTGAGAGCGG AGGCTGCCAT CAAAAGAAAA ATGATGTCTT CAGGCAGAAG AAATGGCACA
    AGAGTTACTA AAGAAGTAGA TACAGCAGAA AATAGTTTGC CAGAATGCGA TGATATAGAA
    GATTCTTGTA GCTTAGAAGA TTCTTTTGGC TCGGATTGGA CATCATCGCA CTCTCAGATT
    TCAGAAAACA GGAGTTATGT GTCGTGGATT AAAAAAGATC ATATACGTGA AGAATCACAG
    AAGCAAAAAT CGAGGAGACC CCACACCCCA GAATACTATG GCAAGTTAAA CTTAGGCAAA
    GTGAAGTTGA ATAAGCACAG GAAGAGCATG CCAGCGTGCA GAGGCAACGT GCAGGCTCCC
    ACTTTAGAGT TTTCACGGTT TGCTGGTCTG GCATCTTCCC ACCAAACCGC CGTGAGTGCA
    GATCAGAGAA ATCTAGAGTT TATCGACTGC AAGATGTTAA ATTTTGCATT GGATAAGGCC
    ATTCGGACTG CCAGGAATAT GCAGAGGGTG ACAGAAAGAA TGGTAACCAG TTTGGCAGCA
    GGTCAGGCCA CTGGTATCTC CAGCTGGAGA TCAGAGAGTC ACTGGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OXa35473
    Clone ID Related Accession (Same CDS sequence) XM_012962486.2
    Accession Version XM_012962486.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3228bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product protein AKNAD1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030680.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012962486.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGGAGGAAA ATGATACAAC TGGGGATGAA CAAGAAGACT TGCCTTATGA TGGAATCCTT 
    GAATGTTATT TGACTTCAAA TATAGACCAA GAAGACATTA ACTATCTTGG TGAGGATACT
    GGTGGTTATC AATATGTAAT TCATCTTGGG AAAGAAAAAG CTCACTCTTT AAACAGTGCT
    GAGTGTGTTA AAGCGGAACT ACTTCCATCA AAAAATATTG ATGCTTCCAG TTTTTCTCAA
    CAAACCATTT CTGTGACTTT TGATGCTTCA GACCTGTCTT TGTCTAGCAA AGTAAATAGC
    AAGAGCTTAG AGTACCAGAG CACTGTCATT CCTGATACAC TGCACAATCA TTTTAATGGA
    GACAGTCTGT TTAATGAGTG TAATTTTATT GACCATGAGG CTATCCCAGA ATGCTCATTA
    GCTGATAGCA TTAATGGTGA TGTAATGAGT AAAATCAGTT TTTTAGACTC TAACAAGGAT
    AATGCTCAGT CGAAGCAAAT GGAAGACCAA GAAAAGTATT ATTTTGAAAG GGAATATATA
    AAGCCATTTA ATAACAAGGT TGCATTTATA TCTAACGAAG ACCTATCCAT TGATGCTTCC
    ATTCAGGAGA CAAATGTAGA GATAAATTGT GGATTACTAC GTGCAGAACA CATTTCAATA
    AAAGAACTGC AGCCTACTGA AACTGATATA ATAAACAAAG GTCTTCAAGA AAGAAGACAT
    TCTTTTCACG ATATCAAGTA TGGCCAAGGG CAGGTTAACT ACAAGCTACA GGATCTTACA
    AAAATACATC CTAAGGTAAA AATACCCAAT GGGAAGGACA GCTCTAGATC TGTCCCTAAT
    TTACAGAGAA GCAGATCATC TCCAAGTATG ATTGAACCCT CTGCTATGGT GAGAGAATTA
    CAGGACTCTA TGCAGCCTTC CAGCGAGCCT ATAAATATAA AAGACACAGT TAAGGCCTCA
    GACCAGGGAT CCCCACATGG ATCGTCTATT TATGAACTCG ACATACAGTA TTCTGAAACT
    GACCACAACC TTTTTCCAGA CAACCTCTCT AAGCAGCTGA AGGACTCATG GAGAAGCAAG
    GAAAGTGATA CAACTGGTGA TGAACAAGAA GACCTACCTT ATGATGGGAT CCTTGAATGT
    TATTTGATGC CAAATGTAAA TCAATTTGAC ATAAGCAATT CTAGTGAGGA TGCTGGAGGT
    CTTCAAAATG TAATTAATCT TGAGGAAAAA GGAAAATGTT ACTCTCCAAA TGGTGCTGAG
    TGTGTTAAGG AGGAACTGCT TATTCCTTCA GAAAATATTG ATGCTTCCAA TGCTTCAGAA
    CTGCCATTGT CTAGCAAAGG GAATAGCAAG AGCACTGTCA TTCCTGATGT CCTGCTTCGT
    CATTTTAAAG AAGACAATCT TCTTAATCCC TGTAATTTCA TTGACTGTGA GACTTTCCCA
    GAACTCTCAT TAATTGAAAG CATTGATGAA ACTGTGATCA GTAAATTAAG TTTTTTAGAC
    TATAACAATG ACAGTGCTCA GTCAGAGCGA AGTGAAGACC AAAAAAAGTA TTTTTTGGAA
    AGAGACAAAG AACCACTCAA CATCCAGAAT GAATGCACAT CTAATCAAGA GCACGTTACT
    GATTTCTACT TTCAGGAGAG AGATGGAGTG ACAAATCATG GATCAAGTGC AGAAAGTATG
    GAGATAAAAG AATTGCAGCC TACTGAAATA GATAAAACAT ACAAAGAGCA TAGATATCAA
    GAAAGAAGAC ATTCTTCCTA TGATATCAAG TATGGCCAAG GGCAGGTTCA CTACAAGTTA
    CCGGATTTCT CAAAAATACC TCCAAAGGTC AAAATACCCA AAGGGAATGG CAGCTCTAGG
    TCTGTTCCTA CATTACACAG AAGCAGATCA TCCCCAAGTA TGATTAAATC GTCAGCTGTG
    GTGAGAGAAT TACTGGACAC TATGCAGCCT TTCAGTGAGA CTGTAAATAT AACAGAAACA
    ATTGAGGCCT CAGCACTTCT AGGCCAGACA TCTGCACTTC TAGGCCAGGT ATCCCAGGCA
    CCCCAACGAC TCACATCAGT GCCTCTAAGT GTTACAGAGA CTTCCGGTCA ACCATTAAAC
    CATCAAAACT GCAGTGAAGG GCCTACCCAA GAATATATGA CTGACATTCC TTTTCAAGCT
    GTTAATTTGG CACATAAAGA AGAATGTGTG AGAGCTGCCA ACTTTCAGCT TCCAACAGAA
    GGAGAAAAAA TGGCTGACAT GCTGAGGAAA GAAGCCCAGC AGCTGCAAGT TAAAGTTGAA
    AAGCTTTCTA ATAATATAGT AAAGGAATCA TTACCGCTGA AAGAACAGTG TCTGATATTT
    CAGGATTTAA AAAGCAGTGT GGAAGCTCTA GAACTGGATT ACTTATTCAA AAAAGAGAAA
    CACCGGCAAA TGCAGCTTCA GGCTTACAGA ACAGAATCCC AGATGGTTGG GGAGTTTGAT
    CTGGAGAGAG AGGTGGAGGG GCAAATCTTC AGGCTGGAGA TGCTTCTAGA AAACATTCAA
    GAACAACTTA ATGCAAAAGT TCCATCAACT GAATCATCAG CAAATTCATA TGATACAGCA
    GTATCATCTA TATCAACGCA GGCCCATAGG AACTCAGAGA CTTTAATGCA CGCTGTGGAT
    CTGAGTTTTA CAGAACAAAA CATGGATCAG AGCTCTGGCA AGGTGACAGG AAGGAAATCA
    CCAGCAGTGA CCCCTGCTTA TAATGATATT CACAGTAGCT GCATTTATCT TAATGCACAA
    GATTCCTCTT GTCTCACAGG GGTCTCTGCA GAGCACAGAA GTGCAAAATC AAACCAAGAG
    ACATATGTAT CTAAACCAAG AACATACGGA GAGCAACGTC CGACCACTCA AAACAGGTAT
    TTGAGAGCGG AGGCTGCCAT CAAAAGAAAA ATGATGTCTT CAGGCAGAAG AAATGGCACA
    AGAGTTACTA AAGAAGTAGA TACAGCAGAA AATAGTTTGC CAGAATGCGA TGATATAGAA
    GATTCTTGTA GCTTAGAAGA TTCTTTTGGC TCGGATTGGA CATCATCGCA CTCTCAGATT
    TCAGAAAACA GGAGTTATGT GTCGTGGATT AAAAAAGATC ATATACGTGA AGAATCACAG
    AAGCAAAAAT CGAGGAGACC CCACACCCCA GAATACTATG GCAAGTTAAA CTTAGGCAAA
    GTGAAGTTGA ATAAGCACAG GAAGAGCATG CCAGCGTGCA GATGTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_012817940.1
    CDS1002..4229
    Translation

    Target ORF information:

    RefSeq Version XM_012962486.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis AKNA domain containing 1 (aknad1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012962486.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGGAGGAAA ATGATACAAC TGGGGATGAA CAAGAAGACT TGCCTTATGA TGGAATCCTT 
    GAATGTTATT TGACTTCAAA TATAGACCAA GAAGACATTA ACTATCTTGG TGAGGATACT
    GGTGGTTATC AATATGTAAT TCATCTTGGG AAAGAAAAAG CTCACTCTTT AAACAGTGCT
    GAGTGTGTTA AAGCGGAACT ACTTCCATCA AAAAATATTG ATGCTTCCAG TTTTTCTCAA
    CAAACCATTT CTGTGACTTT TGATGCTTCA GACCTGTCTT TGTCTAGCAA AGTAAATAGC
    AAGAGCTTAG AGTACCAGAG CACTGTCATT CCTGATACAC TGCACAATCA TTTTAATGGA
    GACAGTCTGT TTAATGAGTG TAATTTTATT GACCATGAGG CTATCCCAGA ATGCTCATTA
    GCTGATAGCA TTAATGGTGA TGTAATGAGT AAAATCAGTT TTTTAGACTC TAACAAGGAT
    AATGCTCAGT CGAAGCAAAT GGAAGACCAA GAAAAGTATT ATTTTGAAAG GGAATATATA
    AAGCCATTTA ATAACAAGGT TGCATTTATA TCTAACGAAG ACCTATCCAT TGATGCTTCC
    ATTCAGGAGA CAAATGTAGA GATAAATTGT GGATTACTAC GTGCAGAACA CATTTCAATA
    AAAGAACTGC AGCCTACTGA AACTGATATA ATAAACAAAG GTCTTCAAGA AAGAAGACAT
    TCTTTTCACG ATATCAAGTA TGGCCAAGGG CAGGTTAACT ACAAGCTACA GGATCTTACA
    AAAATACATC CTAAGGTAAA AATACCCAAT GGGAAGGACA GCTCTAGATC TGTCCCTAAT
    TTACAGAGAA GCAGATCATC TCCAAGTATG ATTGAACCCT CTGCTATGGT GAGAGAATTA
    CAGGACTCTA TGCAGCCTTC CAGCGAGCCT ATAAATATAA AAGACACAGT TAAGGCCTCA
    GACCAGGGAT CCCCACATGG ATCGTCTATT TATGAACTCG ACATACAGTA TTCTGAAACT
    GACCACAACC TTTTTCCAGA CAACCTCTCT AAGCAGCTGA AGGACTCATG GAGAAGCAAG
    GAAAGTGATA CAACTGGTGA TGAACAAGAA GACCTACCTT ATGATGGGAT CCTTGAATGT
    TATTTGATGC CAAATGTAAA TCAATTTGAC ATAAGCAATT CTAGTGAGGA TGCTGGAGGT
    CTTCAAAATG TAATTAATCT TGAGGAAAAA GGAAAATGTT ACTCTCCAAA TGGTGCTGAG
    TGTGTTAAGG AGGAACTGCT TATTCCTTCA GAAAATATTG ATGCTTCCAA TGCTTCAGAA
    CTGCCATTGT CTAGCAAAGG GAATAGCAAG AGCACTGTCA TTCCTGATGT CCTGCTTCGT
    CATTTTAAAG AAGACAATCT TCTTAATCCC TGTAATTTCA TTGACTGTGA GACTTTCCCA
    GAACTCTCAT TAATTGAAAG CATTGATGAA ACTGTGATCA GTAAATTAAG TTTTTTAGAC
    TATAACAATG ACAGTGCTCA GTCAGAGCGA AGTGAAGACC AAAAAAAGTA TTTTTTGGAA
    AGAGACAAAG AACCACTCAA CATCCAGAAT GAATGCACAT CTAATCAAGA GCACGTTACT
    GATTTCTACT TTCAGGAGAG AGATGGAGTG ACAAATCATG GATCAAGTGC AGAAAGTATG
    GAGATAAAAG AATTGCAGCC TACTGAAATA GATAAAACAT ACAAAGAGCA TAGATATCAA
    GAAAGAAGAC ATTCTTCCTA TGATATCAAG TATGGCCAAG GGCAGGTTCA CTACAAGTTA
    CCGGATTTCT CAAAAATACC TCCAAAGGTC AAAATACCCA AAGGGAATGG CAGCTCTAGG
    TCTGTTCCTA CATTACACAG AAGCAGATCA TCCCCAAGTA TGATTAAATC GTCAGCTGTG
    GTGAGAGAAT TACTGGACAC TATGCAGCCT TTCAGTGAGA CTGTAAATAT AACAGAAACA
    ATTGAGGCCT CAGCACTTCT AGGCCAGACA TCTGCACTTC TAGGCCAGGT ATCCCAGGCA
    CCCCAACGAC TCACATCAGT GCCTCTAAGT GTTACAGAGA CTTCCGGTCA ACCATTAAAC
    CATCAAAACT GCAGTGAAGG GCCTACCCAA GAATATATGA CTGACATTCC TTTTCAAGCT
    GTTAATTTGG CACATAAAGA AGAATGTGTG AGAGCTGCCA ACTTTCAGCT TCCAACAGAA
    GGAGAAAAAA TGGCTGACAT GCTGAGGAAA GAAGCCCAGC AGCTGCAAGT TAAAGTTGAA
    AAGCTTTCTA ATAATATAGT AAAGGAATCA TTACCGCTGA AAGAACAGTG TCTGATATTT
    CAGGATTTAA AAAGCAGTGT GGAAGCTCTA GAACTGGATT ACTTATTCAA AAAAGAGAAA
    CACCGGCAAA TGCAGCTTCA GGCTTACAGA ACAGAATCCC AGATGGTTGG GGAGTTTGAT
    CTGGAGAGAG AGGTGGAGGG GCAAATCTTC AGGCTGGAGA TGCTTCTAGA AAACATTCAA
    GAACAACTTA ATGCAAAAGT TCCATCAACT GAATCATCAG CAAATTCATA TGATACAGCA
    GTATCATCTA TATCAACGCA GGCCCATAGG AACTCAGAGA CTTTAATGCA CGCTGTGGAT
    CTGAGTTTTA CAGAACAAAA CATGGATCAG AGCTCTGGCA AGGTGACAGG AAGGAAATCA
    CCAGCAGTGA CCCCTGCTTA TAATGATATT CACAGTAGCT GCATTTATCT TAATGCACAA
    GATTCCTCTT GTCTCACAGG GGTCTCTGCA GAGCACAGAA GTGCAAAATC AAACCAAGAG
    ACATATGTAT CTAAACCAAG AACATACGGA GAGCAACGTC CGACCACTCA AAACAGGTAT
    TTGAGAGCGG AGGCTGCCAT CAAAAGAAAA ATGATGTCTT CAGGCAGAAG AAATGGCACA
    AGAGTTACTA AAGAAGTAGA TACAGCAGAA AATAGTTTGC CAGAATGCGA TGATATAGAA
    GATTCTTGTA GCTTAGAAGA TTCTTTTGGC TCGGATTGGA CATCATCGCA CTCTCAGATT
    TCAGAAAACA GGAGTTATGT GTCGTGGATT AAAAAAGATC ATATACGTGA AGAATCACAG
    AAGCAAAAAT CGAGGAGACC CCACACCCCA GAATACTATG GCAAGTTAAA CTTAGGCAAA
    GTGAAGTTGA ATAAGCACAG GAAGAGCATG CCAGCGTGCA GATGTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OXa35474
    Clone ID Related Accession (Same CDS sequence) XM_012962487.2
    Accession Version XM_012962487.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3138bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product protein AKNAD1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030680.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012962487.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    ATGGAGGAAA ATGATACAAC TGGGGATGAA CAAGAAGACT TGCCTTATGA TGGAATCCTT 
    GAATGTTATT TGACTTCAAA TATAGACCAA GAAGACATTA ACTATCTTGG TGAGGATACT
    GGTGGTTATC AATATGTAAT TCATCTTGGG AAAGAAAAAG CTCACTCTTT AAACAGTGCT
    GAGTGTGTTA AAGCGGAACT ACTTCCATCA AAAAATATTG ATGCTTCCAG TTTTTCTCAA
    CAAACCATTT CTGTGACTTT TGATGCTTCA GACCTGTCTT TGTCTAGCAA AGTAAATAGC
    AAGAGCTTAG AGTACCAGAG CACTGTCATT CCTGATACAC TGCACAATCA TTTTAATGGA
    GACAGTCTGT TTAATGAGTG TAATTTTATT GACCATGAGG CTATCCCAGA ATGCTCATTA
    GCTGATAGCA TTAATGGTGA TGTAATGAGT AAAATCAGTT TTTTAGACTC TAACAAGGAT
    AATGCTCAGT CGAAGCAAAT GGAAGACCAA GAAAAGTATT ATTTTGAAAG GGAATATATA
    AAGCCATTTA ATAACAAGGT TGCATTTATA TCTAACGAAG ACCTATCCAT TGATGCTTCC
    ATTCAGGAGA CAAATGTAGA GATAAATTGT GGATTACTAC GTGCAGAACA CATTTCAATA
    AAAGAACTGC AGCCTACTGA AACTGATATA ATAAACAAAG GTCTTCAAGA AAGAAGACAT
    TCTTTTCACG ATATCAAGTA TGGCCAAGGG CAGGTTAACT ACAAGCTACA GGATCTTACA
    AAAATACATC CTAAGGTAAA AATACCCAAT GGGAAGGACA GCTCTAGATC TGTCCCTAAT
    TTACAGAGAA GCAGATCATC TCCAAGTATG ATTGAACCCT CTGCTATGGT GAGAGAATTA
    CAGGACTCTA TGCAGCCTTC CAGCGAGCCT ATAAATATAA AAGACACAGT TAAGGCCTCA
    GACCAGGGAT CCCCACATGG ATCGTCTATT TATGAACTCG ACATACAGTA TTCTGAAACT
    GACCACAACC TTTTTCCAGA CAACCTCTCT AAGCAGCTGA AGGACTCATG GAGAAGCAAG
    GAAAGTGATA CAACTGGTGA TGAACAAGAA GACCTACCTT ATGATGGGAT CCTTGAATGT
    TATTTGATGC CAAATGTAAA TCAATTTGAC ATAAGCAATT CTAGTGAGGA TGCTGGAGGT
    CTTCAAAATG TAATTAATCT TGAGGAAAAA GGAAAATGTT ACTCTCCAAA TGGTGCTGAG
    TGTGTTAAGG AGGAACTGCT TATTCCTTCA GAAAATATTG ATGCTTCCAA TGCTTCAGAA
    CTGCCATTGT CTAGCAAAGG GAATAGCAAG AGCACTGTCA TTCCTGATGT CCTGCTTCGT
    CATTTTAAAG AAGACAATCT TCTTAATCCC TGTAATTTCA TTGACTGTGA GACTTTCCCA
    GAACTCTCAT TAATTGAAAG CATTGATGAA ACTGTGATCA GTAAATTAAG TTTTTTAGAC
    TATAACAATG ACAGTGCTCA GTCAGAGCGA AGTGAAGACC AAAAAAAGTA TTTTTTGGAA
    AGAGACAAAG AACCACTCAA CATCCAGAAT GAATGCACAT CTAATCAAGA GCACGTTACT
    GATTTCTACT TTCAGGAGAG AGATGGAGTG ACAAATCATG GATCAAGTGC AGAAAGTATG
    GAGATAAAAG AATTGCAGCC TACTGAAATA GATAAAACAT ACAAAGAGCA TAGATATCAA
    GAAAGAAGAC ATTCTTCCTA TGATATCAAG TATGGCCAAG GGCAGGTTCA CTACAAGTTA
    CCGGATTTCT CAAAAATACC TCCAAAGGTC AAAATACCCA AAGGGAATGG CAGCTCTAGG
    TCTGTTCCTA CATTACACAG AAGCAGATCA TCCCCAAGTA TGATTAAATC GTCAGCTGTG
    GTGAGAGAAT TACTGGACAC TATGCAGCCT TTCAGTGAGA CTGTAAATAT AACAGAAACA
    ATTGAGGCCT CAGCACTTCT AGGCCAGACA TCTGCACTTC TAGGCCAGGT ATCCCAGGCA
    CCCCAACGAC TCACATCAGT GCCTCTAAGT GTTACAGAGA CTTCCGGTCA ACCATTAAAC
    CATCAAAACT GCAGTGAAGG GCCTACCCAA GAATATATGA CTGACATTCC TTTTCAAGCT
    GTTAATTTGG CACATAAAGA AGAATGTGTG AGAGCTGCCA ACTTTCAGCT TCCAACAGAA
    GGAGAAAAAA TGGCTGACAT GCTGAGGAAA GAAGCCCAGC AGCTGCAAGT TAAAGTTGAA
    AAGCTTTCTA ATAATATAGT AAAGGAATCA TTACCGCTGA AAGAACAGTG TCTGATATTT
    CAGGATTTAA AAAGCAGTGT GGAAGCTCTA GAACTGGATT ACTTATTCAA AAAAGAGAAA
    CACCGGCAAA TGCAGCTTCA GGCTTACAGA ACAGAATCCC AGATGGTTGG GGAGTTTGAT
    CTGGAGAGAG AGGTGGAGGG GCAAATCTTC AGGCTGGAGA TGCTTCTAGA AAACATTCAA
    GAACAACTTA ATGCAAAAGT TCCATCAACT GAATCATCAG CAAATTCATA TGATACAGCA
    GTATCATCTA TATCAACGCA GGCCCATAGG AACTCAGAGA CTTTAATGCA CGCTGTGGAT
    CTGAGTTTTA CAGAACAAAA CATGGATCAG AGCTCTGGCA AGGTGACAGG AAGGAAATCA
    CCAGCAGTGA CCCCTGCTTA TAATGATATT CACAGTAGCT GCATTTATCT TAATGCACAA
    GATTCCTCTT GTCTCACAGG GGTCTCTGCA GAGCACAGAA GTGCAAAATC AAACCAAGAG
    ACATATGTAT CTAAACCAAG AACATACGGA GAGCAACGTC CGACCACTCA AAACAGGTAT
    TTGAGAGCGG AGGCTGCCAT CAAAAGAAAA ATGATGTCTT CAGGCAGAAG AAATGGCACA
    AGAGTTACTA AAGAAGTAGA TACAGCAGAA AATAGTTTGC CAGAATGCGA TGATATAGAA
    GATTCTTGTA GCTTAGAAGA TTCTTTTGGC TCGGATTGGA CATCATCGCA CTCTCAGATT
    TCAGAAAACA GGAGTTATGT GTCGTGGATT AAAAAAGATC ATATACGTGA AGAGGCAACG
    TGCAGGCTCC CACTTTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_012817941.1
    CDS1003..4140
    Translation

    Target ORF information:

    RefSeq Version XM_012962487.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis AKNA domain containing 1 (aknad1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012962487.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    ATGGAGGAAA ATGATACAAC TGGGGATGAA CAAGAAGACT TGCCTTATGA TGGAATCCTT 
    GAATGTTATT TGACTTCAAA TATAGACCAA GAAGACATTA ACTATCTTGG TGAGGATACT
    GGTGGTTATC AATATGTAAT TCATCTTGGG AAAGAAAAAG CTCACTCTTT AAACAGTGCT
    GAGTGTGTTA AAGCGGAACT ACTTCCATCA AAAAATATTG ATGCTTCCAG TTTTTCTCAA
    CAAACCATTT CTGTGACTTT TGATGCTTCA GACCTGTCTT TGTCTAGCAA AGTAAATAGC
    AAGAGCTTAG AGTACCAGAG CACTGTCATT CCTGATACAC TGCACAATCA TTTTAATGGA
    GACAGTCTGT TTAATGAGTG TAATTTTATT GACCATGAGG CTATCCCAGA ATGCTCATTA
    GCTGATAGCA TTAATGGTGA TGTAATGAGT AAAATCAGTT TTTTAGACTC TAACAAGGAT
    AATGCTCAGT CGAAGCAAAT GGAAGACCAA GAAAAGTATT ATTTTGAAAG GGAATATATA
    AAGCCATTTA ATAACAAGGT TGCATTTATA TCTAACGAAG ACCTATCCAT TGATGCTTCC
    ATTCAGGAGA CAAATGTAGA GATAAATTGT GGATTACTAC GTGCAGAACA CATTTCAATA
    AAAGAACTGC AGCCTACTGA AACTGATATA ATAAACAAAG GTCTTCAAGA AAGAAGACAT
    TCTTTTCACG ATATCAAGTA TGGCCAAGGG CAGGTTAACT ACAAGCTACA GGATCTTACA
    AAAATACATC CTAAGGTAAA AATACCCAAT GGGAAGGACA GCTCTAGATC TGTCCCTAAT
    TTACAGAGAA GCAGATCATC TCCAAGTATG ATTGAACCCT CTGCTATGGT GAGAGAATTA
    CAGGACTCTA TGCAGCCTTC CAGCGAGCCT ATAAATATAA AAGACACAGT TAAGGCCTCA
    GACCAGGGAT CCCCACATGG ATCGTCTATT TATGAACTCG ACATACAGTA TTCTGAAACT
    GACCACAACC TTTTTCCAGA CAACCTCTCT AAGCAGCTGA AGGACTCATG GAGAAGCAAG
    GAAAGTGATA CAACTGGTGA TGAACAAGAA GACCTACCTT ATGATGGGAT CCTTGAATGT
    TATTTGATGC CAAATGTAAA TCAATTTGAC ATAAGCAATT CTAGTGAGGA TGCTGGAGGT
    CTTCAAAATG TAATTAATCT TGAGGAAAAA GGAAAATGTT ACTCTCCAAA TGGTGCTGAG
    TGTGTTAAGG AGGAACTGCT TATTCCTTCA GAAAATATTG ATGCTTCCAA TGCTTCAGAA
    CTGCCATTGT CTAGCAAAGG GAATAGCAAG AGCACTGTCA TTCCTGATGT CCTGCTTCGT
    CATTTTAAAG AAGACAATCT TCTTAATCCC TGTAATTTCA TTGACTGTGA GACTTTCCCA
    GAACTCTCAT TAATTGAAAG CATTGATGAA ACTGTGATCA GTAAATTAAG TTTTTTAGAC
    TATAACAATG ACAGTGCTCA GTCAGAGCGA AGTGAAGACC AAAAAAAGTA TTTTTTGGAA
    AGAGACAAAG AACCACTCAA CATCCAGAAT GAATGCACAT CTAATCAAGA GCACGTTACT
    GATTTCTACT TTCAGGAGAG AGATGGAGTG ACAAATCATG GATCAAGTGC AGAAAGTATG
    GAGATAAAAG AATTGCAGCC TACTGAAATA GATAAAACAT ACAAAGAGCA TAGATATCAA
    GAAAGAAGAC ATTCTTCCTA TGATATCAAG TATGGCCAAG GGCAGGTTCA CTACAAGTTA
    CCGGATTTCT CAAAAATACC TCCAAAGGTC AAAATACCCA AAGGGAATGG CAGCTCTAGG
    TCTGTTCCTA CATTACACAG AAGCAGATCA TCCCCAAGTA TGATTAAATC GTCAGCTGTG
    GTGAGAGAAT TACTGGACAC TATGCAGCCT TTCAGTGAGA CTGTAAATAT AACAGAAACA
    ATTGAGGCCT CAGCACTTCT AGGCCAGACA TCTGCACTTC TAGGCCAGGT ATCCCAGGCA
    CCCCAACGAC TCACATCAGT GCCTCTAAGT GTTACAGAGA CTTCCGGTCA ACCATTAAAC
    CATCAAAACT GCAGTGAAGG GCCTACCCAA GAATATATGA CTGACATTCC TTTTCAAGCT
    GTTAATTTGG CACATAAAGA AGAATGTGTG AGAGCTGCCA ACTTTCAGCT TCCAACAGAA
    GGAGAAAAAA TGGCTGACAT GCTGAGGAAA GAAGCCCAGC AGCTGCAAGT TAAAGTTGAA
    AAGCTTTCTA ATAATATAGT AAAGGAATCA TTACCGCTGA AAGAACAGTG TCTGATATTT
    CAGGATTTAA AAAGCAGTGT GGAAGCTCTA GAACTGGATT ACTTATTCAA AAAAGAGAAA
    CACCGGCAAA TGCAGCTTCA GGCTTACAGA ACAGAATCCC AGATGGTTGG GGAGTTTGAT
    CTGGAGAGAG AGGTGGAGGG GCAAATCTTC AGGCTGGAGA TGCTTCTAGA AAACATTCAA
    GAACAACTTA ATGCAAAAGT TCCATCAACT GAATCATCAG CAAATTCATA TGATACAGCA
    GTATCATCTA TATCAACGCA GGCCCATAGG AACTCAGAGA CTTTAATGCA CGCTGTGGAT
    CTGAGTTTTA CAGAACAAAA CATGGATCAG AGCTCTGGCA AGGTGACAGG AAGGAAATCA
    CCAGCAGTGA CCCCTGCTTA TAATGATATT CACAGTAGCT GCATTTATCT TAATGCACAA
    GATTCCTCTT GTCTCACAGG GGTCTCTGCA GAGCACAGAA GTGCAAAATC AAACCAAGAG
    ACATATGTAT CTAAACCAAG AACATACGGA GAGCAACGTC CGACCACTCA AAACAGGTAT
    TTGAGAGCGG AGGCTGCCAT CAAAAGAAAA ATGATGTCTT CAGGCAGAAG AAATGGCACA
    AGAGTTACTA AAGAAGTAGA TACAGCAGAA AATAGTTTGC CAGAATGCGA TGATATAGAA
    GATTCTTGTA GCTTAGAAGA TTCTTTTGGC TCGGATTGGA CATCATCGCA CTCTCAGATT
    TCAGAAAACA GGAGTTATGT GTCGTGGATT AAAAAAGATC ATATACGTGA AGAGGCAACG
    TGCAGGCTCC CACTTTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OXa57338
    Clone ID Related Accession (Same CDS sequence) XM_012962482.3
    Accession Version XM_012962482.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3468bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product protein AKNAD1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030680.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012962482.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGGAGGAAA ATGATACAAC TGGGGATGAA CAAGAAGACT TGCCTTATGA TGGAATCCTT 
    GAATGTTATT TGACTTCAAA TATAGACCAA GAAGACATTA ACTATCTTGG TGAGGATACT
    GGTGGTTATC AATATGTAAT TCATCTTGGG AAAGAAAAAG CTCACTCTTT AAACAGTGCT
    GAGTGTGTTA AAGCGGAACT ACTTCCATCA AAAAATATTG ATGCTTCCAG TTTTTCTCAA
    CAAACCATTT CTGTGACTTT TGATGCTTCA GACCTGTCTT TGTCTAGCAA AGTAAATAGC
    AAGAGCTTAG AGTACCAGAG CACTGTCATT CCTGATACAC TGCACAATCA TTTTAATGGA
    GACAGTCTGT TTAATGAGTG TAATTTTATT GACCATGAGG CTATCCCAGA ATGCTCATTA
    GCTGATAGCA TTAATGGTGA TGTAATGAGT AAAATCAGTT TTTTAGACTC TAACAAGGAT
    AATGCTCAGT CGAAGCAAAT GGAAGACCAA GAAAAGTATT ATTTTGAAAG GGAATATATA
    AAGCCATTTA ATAACAAGGT TGCATTTATA TCTAACGAAG ACCTATCCAT TGATGCTTCC
    ATTCAGGAGA CAAATGTAGA GATAAATTGT GGATTACTAC GTGCAGAACA CATTTCAATA
    AAAGAACTGC AGCCTACTGA AACTGATATA ATAAACAAAG GTCTTCAAGA AAGAAGACAT
    TCTTTTCACG ATATCAAGTA TGGCCAAGGG CAGGTTAACT ACAAGCTACA GGATCTTACA
    AAAATACATC CTAAGGTAAA AATACCCAAT GGGAAGGACA GCTCTAGATC TGTCCCTAAT
    TTACAGAGAA GCAGATCATC TCCAAGTATG ATTGAACCCT CTGCTATGGT GAGAGAATTA
    CAGGACTCTA TGCAGCCTTC CAGCGAGCCT ATAAATATAA AAGACACAGT TAAGGCCTCA
    GACCAGGGAT CCCCACATGG ATCGTCTATT TATGAACTCG ACATACAGTA TTCTGAAACT
    GACCACAACC TTTTTCCAGA CAACCTCTCT AAGCAGCTGA AGGACTCATG GAGAAGCAAG
    GAAAGTGATA CAACTGGTGA TGAACAAGAA GACCTACCTT ATGATGGGAT CCTTGAATGT
    TATTTGATGC CAAATGTAAA TCAATTTGAC ATAAGCAATT CTAGTGAGGA TGCTGGAGGT
    CTTCAAAATG TAATTAATCT TGAGGAAAAA GGAAAATGTT ACTCTCCAAA TGGTGCTGAG
    TGTGTTAAGG AGGAACTGCT TATTCCTTCA GAAAATATTG ATGCTTCCAA TGCTTCAGAA
    CTGCCATTGT CTAGCAAAGG GAATAGCAAG AGCACTGTCA TTCCTGATGT CCTGCTTCGT
    CATTTTAAAG AAGACAGTCT TCTTAATCCG TGTAATTTCA TTGACTGTGA GACTTTCCCA
    GAACTCTCAT TAATTGAAAG CATTGATGAA ACTGTGATCA GTAAATTAAG TTTTTTAGAC
    TATAACAATG ACAGTGCTCA GTCAGAGCGA AGTGAAGACC AAAAAAAGTA TTTTTTGGAA
    AGAGACAAAG AACCACTCAA CATCCAGAAT GAATGCACAT CTAATCAAGA GCACGTTACT
    GATTTCTACT TTCAGGAGAG AGATGGAGTG ACAAATCATG GATCAAGTGC AGAAAGTATG
    GAGATAAAAG AATTGCAGCC TACTGAAATA GATAAAACAT ACAAAGAGCA TAGATATCAA
    GAAAGAAGAC ATTCTTCCTA TGATATCAAG TATGGCCAAG GGCAGGTTCA CTACAAGTTA
    CCGGATTTCT CAAAAATACC TCCAAAGGTC AAAATACCCA AAGGGAATGG CAGCTCTAGG
    TCTGTTCCTA CATTACACAG AAGCAGATCA TCCCCAAGTA TGATTAAATC GTCAGCTGTG
    GTGAGAGAAT TACTGGACAC TATGCAGCCT TTCAGTGAGA CTGTAAATAT AACAGAAACA
    ATTGAGGCCT CAGCACTTCT AGGCCAGACA TCTGCACTTC TAGGCCAGGT ATCCCAGGCA
    CCCCAACGAC TCACATCAGT GCCTCTAAGT GTTACAGAGA CTTCCGGTCA ACCATTAAAC
    CATCAAAACT GCAGTGAAGG GCCTACCCAA GAATATATGA CTGACATTCC TTTTCAAGCT
    GTTAATTTGG CACATAAAGA AGAATGTGTG AGAGCTGCCA ACTTTCAGCT TCCAACAGAA
    GGAGAAAAAA TGGCTGACAT GCTGAGGAAA GAAGCCCAGC AGCTGCAAGT TAAAGTTGAA
    AAGCTTTCTA ATAATATAGT AAAGGAATCA TTACCGCTGA AAGAACAGTG TCTGATATTT
    CAGGATTTAA AAAGCAGTGT GGAAGCTCTA GAACTGGATT ACTTATTCAA AAAAGAGAAA
    CACCGGCAAA TGCAGCTTCA GGCTTACAGA GCAGAATCCC AGATGGTTGG GGAGTTTGAT
    CTGGAGAGAG AGGTGGAGGG GCAAATCTTC AGGCTGGAGA TGCTTCTAGA AAACATTCAA
    GAACAACTTA ATGCAAAAGT TCCATCAACT GAATCATCAG CAAATTCATA TGATACAGCA
    GTATCATCTA TATCAAAGCA GGCCCATAGG AACTCAGAGA CTTTAATGCA CGCTGTGGAT
    CTGAGTTTTA CAGAACAAAA CATGGATCAG AGCTCTGGCA AGGTGACAGG AAGGAAATCA
    CCAGCAGTGA CCCCTGCTTA TAATGATATT CACAGTAGCT GCATTTATCT TAATGCACAA
    GATTCCTCTT GTCTCACAGG GGTCTCTGCA GAGCACAGAA GTGCAAAATC AAACCAAGAG
    ACATATGTAT CTAAACTAAG AACATACGGA GAGCAACGTC CGACCGCTCA AAACAGGTAT
    TTGAGAGCGG AGGCTGCCAT CAAAAGAAAA ATGATGTCTT CAGGCAGAAG AAATGGCACA
    AGAGTTACTA AAGAAGTAGA TACAGCAGAA AATAGTTTGC CAGAATGCGA TGATATAGAA
    GATTCTTGTA GCTTAGAAGA TTCTTTTGGC TCGGATTGGA CATCATCGCA CTCTCAGATT
    TCAGAAAACA GGAGTTATGT GTCGTGGATT AAAAAAGATC ATATACGTGA AGAATCACAG
    AAGCAAAAAT CGAGGAGACC CCACACCCCA GAATACTATG GCAAGTTAAA CTTAGGCAAA
    GTGAAGTTGA ATAAGCACAG GAAGAGCATG CCAGCGTGCA GAGGCAACGT GCAGGCTCCC
    ACTTTAGAGT TTTCACGGCT TGCTGGTCTG GCATCTTCCC ACCAAACCGC CGTGAGTGCA
    GATCAGAGAA ATCTAGAGTT TATCGACTGC AAGATGTTAA ATTTTGCATT GGATAAGGCC
    ATTCGGACTG CCAGGAATAT GCAGAGGGTG ACAGAAAGAA TGGTAACCAG TTTGGCAGCA
    GGTCAGGCCA CTGGTATCTC CAGCTGGAGA TCAGAGAGTC ACTGGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_012817936.2
    CDS209..3676
    Translation

    Target ORF information:

    RefSeq Version XM_012962482.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis AKNA domain containing 1 (aknad1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012962482.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGGAGGAAA ATGATACAAC TGGGGATGAA CAAGAAGACT TGCCTTATGA TGGAATCCTT 
    GAATGTTATT TGACTTCAAA TATAGACCAA GAAGACATTA ACTATCTTGG TGAGGATACT
    GGTGGTTATC AATATGTAAT TCATCTTGGG AAAGAAAAAG CTCACTCTTT AAACAGTGCT
    GAGTGTGTTA AAGCGGAACT ACTTCCATCA AAAAATATTG ATGCTTCCAG TTTTTCTCAA
    CAAACCATTT CTGTGACTTT TGATGCTTCA GACCTGTCTT TGTCTAGCAA AGTAAATAGC
    AAGAGCTTAG AGTACCAGAG CACTGTCATT CCTGATACAC TGCACAATCA TTTTAATGGA
    GACAGTCTGT TTAATGAGTG TAATTTTATT GACCATGAGG CTATCCCAGA ATGCTCATTA
    GCTGATAGCA TTAATGGTGA TGTAATGAGT AAAATCAGTT TTTTAGACTC TAACAAGGAT
    AATGCTCAGT CGAAGCAAAT GGAAGACCAA GAAAAGTATT ATTTTGAAAG GGAATATATA
    AAGCCATTTA ATAACAAGGT TGCATTTATA TCTAACGAAG ACCTATCCAT TGATGCTTCC
    ATTCAGGAGA CAAATGTAGA GATAAATTGT GGATTACTAC GTGCAGAACA CATTTCAATA
    AAAGAACTGC AGCCTACTGA AACTGATATA ATAAACAAAG GTCTTCAAGA AAGAAGACAT
    TCTTTTCACG ATATCAAGTA TGGCCAAGGG CAGGTTAACT ACAAGCTACA GGATCTTACA
    AAAATACATC CTAAGGTAAA AATACCCAAT GGGAAGGACA GCTCTAGATC TGTCCCTAAT
    TTACAGAGAA GCAGATCATC TCCAAGTATG ATTGAACCCT CTGCTATGGT GAGAGAATTA
    CAGGACTCTA TGCAGCCTTC CAGCGAGCCT ATAAATATAA AAGACACAGT TAAGGCCTCA
    GACCAGGGAT CCCCACATGG ATCGTCTATT TATGAACTCG ACATACAGTA TTCTGAAACT
    GACCACAACC TTTTTCCAGA CAACCTCTCT AAGCAGCTGA AGGACTCATG GAGAAGCAAG
    GAAAGTGATA CAACTGGTGA TGAACAAGAA GACCTACCTT ATGATGGGAT CCTTGAATGT
    TATTTGATGC CAAATGTAAA TCAATTTGAC ATAAGCAATT CTAGTGAGGA TGCTGGAGGT
    CTTCAAAATG TAATTAATCT TGAGGAAAAA GGAAAATGTT ACTCTCCAAA TGGTGCTGAG
    TGTGTTAAGG AGGAACTGCT TATTCCTTCA GAAAATATTG ATGCTTCCAA TGCTTCAGAA
    CTGCCATTGT CTAGCAAAGG GAATAGCAAG AGCACTGTCA TTCCTGATGT CCTGCTTCGT
    CATTTTAAAG AAGACAGTCT TCTTAATCCG TGTAATTTCA TTGACTGTGA GACTTTCCCA
    GAACTCTCAT TAATTGAAAG CATTGATGAA ACTGTGATCA GTAAATTAAG TTTTTTAGAC
    TATAACAATG ACAGTGCTCA GTCAGAGCGA AGTGAAGACC AAAAAAAGTA TTTTTTGGAA
    AGAGACAAAG AACCACTCAA CATCCAGAAT GAATGCACAT CTAATCAAGA GCACGTTACT
    GATTTCTACT TTCAGGAGAG AGATGGAGTG ACAAATCATG GATCAAGTGC AGAAAGTATG
    GAGATAAAAG AATTGCAGCC TACTGAAATA GATAAAACAT ACAAAGAGCA TAGATATCAA
    GAAAGAAGAC ATTCTTCCTA TGATATCAAG TATGGCCAAG GGCAGGTTCA CTACAAGTTA
    CCGGATTTCT CAAAAATACC TCCAAAGGTC AAAATACCCA AAGGGAATGG CAGCTCTAGG
    TCTGTTCCTA CATTACACAG AAGCAGATCA TCCCCAAGTA TGATTAAATC GTCAGCTGTG
    GTGAGAGAAT TACTGGACAC TATGCAGCCT TTCAGTGAGA CTGTAAATAT AACAGAAACA
    ATTGAGGCCT CAGCACTTCT AGGCCAGACA TCTGCACTTC TAGGCCAGGT ATCCCAGGCA
    CCCCAACGAC TCACATCAGT GCCTCTAAGT GTTACAGAGA CTTCCGGTCA ACCATTAAAC
    CATCAAAACT GCAGTGAAGG GCCTACCCAA GAATATATGA CTGACATTCC TTTTCAAGCT
    GTTAATTTGG CACATAAAGA AGAATGTGTG AGAGCTGCCA ACTTTCAGCT TCCAACAGAA
    GGAGAAAAAA TGGCTGACAT GCTGAGGAAA GAAGCCCAGC AGCTGCAAGT TAAAGTTGAA
    AAGCTTTCTA ATAATATAGT AAAGGAATCA TTACCGCTGA AAGAACAGTG TCTGATATTT
    CAGGATTTAA AAAGCAGTGT GGAAGCTCTA GAACTGGATT ACTTATTCAA AAAAGAGAAA
    CACCGGCAAA TGCAGCTTCA GGCTTACAGA GCAGAATCCC AGATGGTTGG GGAGTTTGAT
    CTGGAGAGAG AGGTGGAGGG GCAAATCTTC AGGCTGGAGA TGCTTCTAGA AAACATTCAA
    GAACAACTTA ATGCAAAAGT TCCATCAACT GAATCATCAG CAAATTCATA TGATACAGCA
    GTATCATCTA TATCAAAGCA GGCCCATAGG AACTCAGAGA CTTTAATGCA CGCTGTGGAT
    CTGAGTTTTA CAGAACAAAA CATGGATCAG AGCTCTGGCA AGGTGACAGG AAGGAAATCA
    CCAGCAGTGA CCCCTGCTTA TAATGATATT CACAGTAGCT GCATTTATCT TAATGCACAA
    GATTCCTCTT GTCTCACAGG GGTCTCTGCA GAGCACAGAA GTGCAAAATC AAACCAAGAG
    ACATATGTAT CTAAACTAAG AACATACGGA GAGCAACGTC CGACCGCTCA AAACAGGTAT
    TTGAGAGCGG AGGCTGCCAT CAAAAGAAAA ATGATGTCTT CAGGCAGAAG AAATGGCACA
    AGAGTTACTA AAGAAGTAGA TACAGCAGAA AATAGTTTGC CAGAATGCGA TGATATAGAA
    GATTCTTGTA GCTTAGAAGA TTCTTTTGGC TCGGATTGGA CATCATCGCA CTCTCAGATT
    TCAGAAAACA GGAGTTATGT GTCGTGGATT AAAAAAGATC ATATACGTGA AGAATCACAG
    AAGCAAAAAT CGAGGAGACC CCACACCCCA GAATACTATG GCAAGTTAAA CTTAGGCAAA
    GTGAAGTTGA ATAAGCACAG GAAGAGCATG CCAGCGTGCA GAGGCAACGT GCAGGCTCCC
    ACTTTAGAGT TTTCACGGCT TGCTGGTCTG GCATCTTCCC ACCAAACCGC CGTGAGTGCA
    GATCAGAGAA ATCTAGAGTT TATCGACTGC AAGATGTTAA ATTTTGCATT GGATAAGGCC
    ATTCGGACTG CCAGGAATAT GCAGAGGGTG ACAGAAAGAA TGGTAACCAG TTTGGCAGCA
    GGTCAGGCCA CTGGTATCTC CAGCTGGAGA TCAGAGAGTC ACTGGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OXa57339
    Clone ID Related Accession (Same CDS sequence) XM_012962485.3
    Accession Version XM_012962485.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3450bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product protein AKNAD1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030680.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012962485.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGGAGGAAA ATGATACAAC TGGGGATGAA CAAGAAGACT TGCCTTATGA TGGAATCCTT 
    GAATGTTATT TGACTTCAAA TATAGACCAA GAAGACATTA ACTATCTTGG TGAGGATACT
    GGTGGTTATC AATATGTAAT TCATCTTGGG AAAGAAAAAG CTCACTCTTT AAACAGTGCT
    GAGTGTGTTA AAGCGGAACT ACTTCCATCA AAAAATATTG ATGCTTCCAG TTTTTCTCAA
    CAAACCATTT CTGTGACTTT TGATGCTTCA GACCTGTCTT TGTCTAGCAA AGTAAATAGC
    AAGAGCTTAG AGTACCAGAG CACTGTCATT CCTGATACAC TGCACAATCA TTTTAATGGA
    GACAGTCTGT TTAATGAGTG TAATTTTATT GACCATGAGG CTATCCCAGA ATGCTCATTA
    GCTGATAGCA TTAATGGTGA TGTAATGAGT AAAATCAGTT TTTTAGACTC TAACAAGGAT
    AATGCTCAGT CGAAGCAAAT GGAAGACCAA GAAAAGTATT ATTTTGAAAG GGAATATATA
    AAGCCATTTA ATAACAAGGT TGCATTTATA TCTAACGAAG ACCTATCCAT TGATGCTTCC
    ATTCAGGAGA CAAATGTAGA GATAAATTGT GGATTACTAC GTGCAGAACA CATTTCAATA
    AAAGAACTGC AGCCTACTGA AACTGATATA ATAAACAAAG GTCTTCAAGA AAGAAGACAT
    TCTTTTCACG ATATCAAGTA TGGCCAAGGG CAGGTTAACT ACAAGCTACA GGATCTTACA
    AAAATACATC CTAAGGTAAA AATACCCAAT GGGAAGGACA GCTCTAGATC TGTCCCTAAT
    TTACAGAGAA GCAGATCATC TCCAAGTATG ATTGAACCCT CTGCTATGGT GAGAGAATTA
    CAGGACTCTA TGCAGCCTTC CAGCGAGCCT ATAAATATAA AAGACACAGT TAAGGCCTCA
    GACCAGGGAT CCCCACATGG ATCGTCTATT TATGAACTCG ACATACAGTA TTCTGAAACT
    GACCACAACC TTTTTCCAGA CAACCTCTCT AAGCAGCTGA AGGACTCATG GAGAAGCAAG
    GAAAGTGATA CAACTGGTGA TGAACAAGAA GACCTACCTT ATGATGGGAT CCTTGAATGT
    TATTTGATGC CAAATGTAAA TCAATTTGAC ATAAGCAATT CTAGTGAGGA TGCTGGAGGT
    CTTCAAAATG TAATTAATCT TGAGGAAAAA GGAAAATGTT ACTCTCCAAA TGGTGCTGAG
    TGTGTTAAGG AGGAACTGCT TATTCCTTCA GAAAATATTG ATGCTTCCAA TGCTTCAGAA
    CTGCCATTGT CTAGCAAAGG GAATAGCAAG AGCACTGTCA TTCCTGATGT CCTGCTTCGT
    CATTTTAAAG AAGACAGTCT TCTTAATCCG TGTAATTTCA TTGACTGTGA GACTTTCCCA
    GAACTCTCAT TAATTGAAAG CATTGATGAA ACTGTGATCA GTAAATTAAG TTTTTTAGAC
    TATAACAATG ACAGTGCTCA GTCAGAGCGA AGTGAAGACC AAAAAAAGTA TTTTTTGGAA
    AGAGACAAAG AACCACTCAA CATCCAGAAT GAATGCACAT CTAATCAAGA GCACGTTACT
    GATTTCTACT TTCAGGAGAG AGATGGAGTG ACAAATCATG GATCAAGTGC AGAAAGTATG
    GAGATAAAAG AATTGCAGCC TACTGAAATA GATAAAACAT ACAAAGAGCA TAGATATCAA
    GAAAGAAGAC ATTCTTCCTA TGATATCAAG TATGGCCAAG GGCAGGTTCA CTACAAGTTA
    CCGGATTTCT CAAAAATACC TCCAAAGGTC AAAATACCCA AAGGGAATGG CAGCTCTAGG
    TCTGTTCCTA CATTACACAG AAGCAGATCA TCCCCAAGTA TGATTAAATC GTCAGCTGTG
    GTGAGAGAAT TACTGGACAC TATGCAGCCT TTCAGTGAGA CTGTAAATAT AACAGAAACA
    ATTGAGGCCT CAGCACTTCT AGGCCAGACA TCTGCACTTC TAGGCCAGGT ATCCCAGGCA
    CCCCAACGAC TCACATCAGT GCCTCTAAGT GTTACAGAGA CTTCCGGTCA ACCATTAAAC
    CATCAAAACT GCAGTGAAGG GCCTACCCAA GAATATATGA CTGACATTCC TTTTCAAGCT
    GTTAATTTGG CACATAAAGA AGAATGTGTG AGAGCTGCCA ACTTTCAGCT TCCAACAGAA
    GGAGAAAAAA TGGCTGACAT GCTGAGGAAA GAAGCCCAGC AGCTGCAAGT TAAAGTTGAA
    AAGCTTTCTA ATAATATAGT AAAGGAATCA TTACCGCTGA AAGAACAGTG TCTGATATTT
    CAGGATTTAA AAAGCAGTGT GGAAGCTCTA GAACTGGATT ACTTATTCAA AAAAGAGAAA
    CACCGGCAAA TGCAGCTTCA GGCTTACAGA GCAGAATCCC AGATGGTTGG GGAGTTTGAT
    CTGGAGAGAG AGGTGGAGGG GCAAATCTTC AGGCTGGAGA TGCTTCTAGA AAACATTCAA
    GAACAACTTA ATGCAAAAGT TCCATCAACT GAATCATCAG CAAATTCATA TGATACAGCA
    GTATCATCTA TATCAAAGCA GGCCCATAGG AACTCAGAGA CTTTAATGCA CGCTGTGGAT
    CTGAGTTTTA CAGAACAAAA CATGGATCAG AGCTCTGGCA AGGTGACAGG AAGGAAATCA
    CCAGCAGTGA CCCCTGCTTA TAATGATATT CACAGTAGCT GCATTTATCT TAATGCACAA
    GGGGTCTCTG CAGAGCACAG AAGTGCAAAA TCAAACCAAG AGACATATGT ATCTAAACTA
    AGAACATACG GAGAGCAACG TCCGACCGCT CAAAACAGGT ATTTGAGAGC GGAGGCTGCC
    ATCAAAAGAA AAATGATGTC TTCAGGCAGA AGAAATGGCA CAAGAGTTAC TAAAGAAGTA
    GATACAGCAG AAAATAGTTT GCCAGAATGC GATGATATAG AAGATTCTTG TAGCTTAGAA
    GATTCTTTTG GCTCGGATTG GACATCATCG CACTCTCAGA TTTCAGAAAA CAGGAGTTAT
    GTGTCGTGGA TTAAAAAAGA TCATATACGT GAAGAATCAC AGAAGCAAAA ATCGAGGAGA
    CCCCACACCC CAGAATACTA TGGCAAGTTA AACTTAGGCA AAGTGAAGTT GAATAAGCAC
    AGGAAGAGCA TGCCAGCGTG CAGAGGCAAC GTGCAGGCTC CCACTTTAGA GTTTTCACGG
    CTTGCTGGTC TGGCATCTTC CCACCAAACC GCCGTGAGTG CAGATCAGAG AAATCTAGAG
    TTTATCGACT GCAAGATGTT AAATTTTGCA TTGGATAAGG CCATTCGGAC TGCCAGGAAT
    ATGCAGAGGG TGACAGAAAG AATGGTAACC AGTTTGGCAG CAGGTCAGGC CACTGGTATC
    TCCAGCTGGA GATCAGAGAG TCACTGGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_012817939.2
    CDS209..3658
    Translation

    Target ORF information:

    RefSeq Version XM_012962485.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis AKNA domain containing 1 (aknad1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012962485.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGGAGGAAA ATGATACAAC TGGGGATGAA CAAGAAGACT TGCCTTATGA TGGAATCCTT 
    GAATGTTATT TGACTTCAAA TATAGACCAA GAAGACATTA ACTATCTTGG TGAGGATACT
    GGTGGTTATC AATATGTAAT TCATCTTGGG AAAGAAAAAG CTCACTCTTT AAACAGTGCT
    GAGTGTGTTA AAGCGGAACT ACTTCCATCA AAAAATATTG ATGCTTCCAG TTTTTCTCAA
    CAAACCATTT CTGTGACTTT TGATGCTTCA GACCTGTCTT TGTCTAGCAA AGTAAATAGC
    AAGAGCTTAG AGTACCAGAG CACTGTCATT CCTGATACAC TGCACAATCA TTTTAATGGA
    GACAGTCTGT TTAATGAGTG TAATTTTATT GACCATGAGG CTATCCCAGA ATGCTCATTA
    GCTGATAGCA TTAATGGTGA TGTAATGAGT AAAATCAGTT TTTTAGACTC TAACAAGGAT
    AATGCTCAGT CGAAGCAAAT GGAAGACCAA GAAAAGTATT ATTTTGAAAG GGAATATATA
    AAGCCATTTA ATAACAAGGT TGCATTTATA TCTAACGAAG ACCTATCCAT TGATGCTTCC
    ATTCAGGAGA CAAATGTAGA GATAAATTGT GGATTACTAC GTGCAGAACA CATTTCAATA
    AAAGAACTGC AGCCTACTGA AACTGATATA ATAAACAAAG GTCTTCAAGA AAGAAGACAT
    TCTTTTCACG ATATCAAGTA TGGCCAAGGG CAGGTTAACT ACAAGCTACA GGATCTTACA
    AAAATACATC CTAAGGTAAA AATACCCAAT GGGAAGGACA GCTCTAGATC TGTCCCTAAT
    TTACAGAGAA GCAGATCATC TCCAAGTATG ATTGAACCCT CTGCTATGGT GAGAGAATTA
    CAGGACTCTA TGCAGCCTTC CAGCGAGCCT ATAAATATAA AAGACACAGT TAAGGCCTCA
    GACCAGGGAT CCCCACATGG ATCGTCTATT TATGAACTCG ACATACAGTA TTCTGAAACT
    GACCACAACC TTTTTCCAGA CAACCTCTCT AAGCAGCTGA AGGACTCATG GAGAAGCAAG
    GAAAGTGATA CAACTGGTGA TGAACAAGAA GACCTACCTT ATGATGGGAT CCTTGAATGT
    TATTTGATGC CAAATGTAAA TCAATTTGAC ATAAGCAATT CTAGTGAGGA TGCTGGAGGT
    CTTCAAAATG TAATTAATCT TGAGGAAAAA GGAAAATGTT ACTCTCCAAA TGGTGCTGAG
    TGTGTTAAGG AGGAACTGCT TATTCCTTCA GAAAATATTG ATGCTTCCAA TGCTTCAGAA
    CTGCCATTGT CTAGCAAAGG GAATAGCAAG AGCACTGTCA TTCCTGATGT CCTGCTTCGT
    CATTTTAAAG AAGACAGTCT TCTTAATCCG TGTAATTTCA TTGACTGTGA GACTTTCCCA
    GAACTCTCAT TAATTGAAAG CATTGATGAA ACTGTGATCA GTAAATTAAG TTTTTTAGAC
    TATAACAATG ACAGTGCTCA GTCAGAGCGA AGTGAAGACC AAAAAAAGTA TTTTTTGGAA
    AGAGACAAAG AACCACTCAA CATCCAGAAT GAATGCACAT CTAATCAAGA GCACGTTACT
    GATTTCTACT TTCAGGAGAG AGATGGAGTG ACAAATCATG GATCAAGTGC AGAAAGTATG
    GAGATAAAAG AATTGCAGCC TACTGAAATA GATAAAACAT ACAAAGAGCA TAGATATCAA
    GAAAGAAGAC ATTCTTCCTA TGATATCAAG TATGGCCAAG GGCAGGTTCA CTACAAGTTA
    CCGGATTTCT CAAAAATACC TCCAAAGGTC AAAATACCCA AAGGGAATGG CAGCTCTAGG
    TCTGTTCCTA CATTACACAG AAGCAGATCA TCCCCAAGTA TGATTAAATC GTCAGCTGTG
    GTGAGAGAAT TACTGGACAC TATGCAGCCT TTCAGTGAGA CTGTAAATAT AACAGAAACA
    ATTGAGGCCT CAGCACTTCT AGGCCAGACA TCTGCACTTC TAGGCCAGGT ATCCCAGGCA
    CCCCAACGAC TCACATCAGT GCCTCTAAGT GTTACAGAGA CTTCCGGTCA ACCATTAAAC
    CATCAAAACT GCAGTGAAGG GCCTACCCAA GAATATATGA CTGACATTCC TTTTCAAGCT
    GTTAATTTGG CACATAAAGA AGAATGTGTG AGAGCTGCCA ACTTTCAGCT TCCAACAGAA
    GGAGAAAAAA TGGCTGACAT GCTGAGGAAA GAAGCCCAGC AGCTGCAAGT TAAAGTTGAA
    AAGCTTTCTA ATAATATAGT AAAGGAATCA TTACCGCTGA AAGAACAGTG TCTGATATTT
    CAGGATTTAA AAAGCAGTGT GGAAGCTCTA GAACTGGATT ACTTATTCAA AAAAGAGAAA
    CACCGGCAAA TGCAGCTTCA GGCTTACAGA GCAGAATCCC AGATGGTTGG GGAGTTTGAT
    CTGGAGAGAG AGGTGGAGGG GCAAATCTTC AGGCTGGAGA TGCTTCTAGA AAACATTCAA
    GAACAACTTA ATGCAAAAGT TCCATCAACT GAATCATCAG CAAATTCATA TGATACAGCA
    GTATCATCTA TATCAAAGCA GGCCCATAGG AACTCAGAGA CTTTAATGCA CGCTGTGGAT
    CTGAGTTTTA CAGAACAAAA CATGGATCAG AGCTCTGGCA AGGTGACAGG AAGGAAATCA
    CCAGCAGTGA CCCCTGCTTA TAATGATATT CACAGTAGCT GCATTTATCT TAATGCACAA
    GGGGTCTCTG CAGAGCACAG AAGTGCAAAA TCAAACCAAG AGACATATGT ATCTAAACTA
    AGAACATACG GAGAGCAACG TCCGACCGCT CAAAACAGGT ATTTGAGAGC GGAGGCTGCC
    ATCAAAAGAA AAATGATGTC TTCAGGCAGA AGAAATGGCA CAAGAGTTAC TAAAGAAGTA
    GATACAGCAG AAAATAGTTT GCCAGAATGC GATGATATAG AAGATTCTTG TAGCTTAGAA
    GATTCTTTTG GCTCGGATTG GACATCATCG CACTCTCAGA TTTCAGAAAA CAGGAGTTAT
    GTGTCGTGGA TTAAAAAAGA TCATATACGT GAAGAATCAC AGAAGCAAAA ATCGAGGAGA
    CCCCACACCC CAGAATACTA TGGCAAGTTA AACTTAGGCA AAGTGAAGTT GAATAAGCAC
    AGGAAGAGCA TGCCAGCGTG CAGAGGCAAC GTGCAGGCTC CCACTTTAGA GTTTTCACGG
    CTTGCTGGTC TGGCATCTTC CCACCAAACC GCCGTGAGTG CAGATCAGAG AAATCTAGAG
    TTTATCGACT GCAAGATGTT AAATTTTGCA TTGGATAAGG CCATTCGGAC TGCCAGGAAT
    ATGCAGAGGG TGACAGAAAG AATGGTAACC AGTTTGGCAG CAGGTCAGGC CACTGGTATC
    TCCAGCTGGA GATCAGAGAG TCACTGGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OXa57340
    Clone ID Related Accession (Same CDS sequence) XM_002932172.5
    Accession Version XM_002932172.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3408bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product protein AKNAD1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030680.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_002932172.4. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGGAGGAAA ATGATACAAC TGGGGATGAA CAAGAAGACT TGCCTTATGA TGGAATCCTT 
    GAATGTTATT TGACTTCAAA TATAGACCAA GAAGACATTA ACTATCTTGG TGAGGATACT
    GGTGGTTATC AATATGTAAT TCATCTTGGG AAAGAAAAAG CTCACTCTTT AAACAGTGCT
    GAGTGTGTTA AAGCGGAACT ACTTCCATCA AAAAATATTG ATGCTTCCAG TTTTTCTCAA
    CAAACCATTT CTGTGACTTT TGATGCTTCA GACCTGTCTT TGTCTAGCAA AGTAAATAGC
    AAGAGCTTAG AGTACCAGAG CACTGTCATT CCTGATACAC TGCACAATCA TTTTAATGGA
    GACAGTCTGT TTAATGAGTG TAATTTTATT GACCATGAGG CTATCCCAGA ATGCTCATTA
    GCTGATAGCA TTAATGGTGA TGTAATGAGT AAAATCAGTT TTTTAGACTC TAACAAGGAT
    AATGCTCAGT CGAAGCAAAT GGAAGACCAA GAAAAGTATT ATTTTGAAAG GGAATATATA
    AAGCCATTTA ATAACAAGGT TGCATTTATA TCTAACGAAG ACCTATCCAT TGATGCTTCC
    ATTCAGGAGA CAAATGTAGA GATAAATTGT GGATTACTAC GTGCAGAACA CATTTCAATA
    AAAGAACTGC AGCCTACTGA AACTGATATA ATAAACAAAG GTCTTCAAGA AAGAAGACAT
    TCTTTTCACG ATATCAAGTA TGGCCAAGGG CAGGTTAACT ACAAGCTACA GGATCTTACA
    AAAATACATC CTAAGGTAAA AATACCCAAT GGGAAGGACA GCTCTAGATC TGTCCCTAAT
    TTACAGAGAA GCAGATCATC TCCAAGTATG ATTGAACCCT CTGCTATGGT GAGAGAATTA
    CAGGACTCTA TGCAGCCTTC CAGCGAGCCT ATAAATATAA AAGACACAGT TAAGGCCTCA
    GACCAGGGAT CCCCACATGG ATCGTCTATT TATGAACTCG ACATACAGTA TTCTGAAACT
    GACCACAACC TTTTTCCAGA CAACCTCTCT AAGCAGCTGA AGGACTCATG GAGAAGCAAG
    GAAAGTGATA CAACTGGTGA TGAACAAGAA GACCTACCTT ATGATGGGAT CCTTGAATGT
    TATTTGATGC CAAATGTAAA TCAATTTGAC ATAAGCAATT CTAGTGAGGA TGCTGGAGGT
    CTTCAAAATG TAATTAATCT TGAGGAAAAA GGAAAATGTT ACTCTCCAAA TGGTGCTGAG
    TGTGTTAAGG AGGAACTGCT TATTCCTTCA GAAAATATTG ATGCTTCCAA TGCTTCAGAA
    CTGCCATTGT CTAGCAAAGG GAATAGCAAG AGCACTGTCA TTCCTGATGT CCTGCTTCGT
    CATTTTAAAG AAGACAGTCT TCTTAATCCG TGTAATTTCA TTGACTGTGA GACTTTCCCA
    GAACTCTCAT TAATTGAAAG CATTGATGAA ACTGTGATCA GTAAATTAAG TTTTTTAGAC
    TATAACAATG ACAGTGCTCA GTCAGAGCGA AGTGAAGACC AAAAAAAGTA TTTTTTGGAA
    AGAGACAAAG AACCACTCAA CATCCAGAAT GAATGCACAT CTAATCAAGA GCACGTTACT
    GATTTCTACT TTCAGGAGAG AGATGGAGTG ACAAATCATG GATCAAGTGC AGAAAGTATG
    GAGATAAAAG AATTGCAGCC TACTGAAATA GATAAAACAT ACAAAGAGCA TAGATATCAA
    GAAAGAAGAC ATTCTTCCTA TGATATCAAG TATGGCCAAG GGCAGGTTCA CTACAAGTTA
    CCGGATTTCT CAAAAATACC TCCAAAGGTC AAAATACCCA AAGGGAATGG CAGCTCTAGG
    TCTGTTCCTA CATTACACAG AAGCAGATCA TCCCCAAGTA TGATTAAATC GTCAGCTGTG
    GTGAGAGAAT TACTGGACAC TATGCAGCCT TTCAGTGAGA CTGTAAATAT AACAGAAACA
    ATTGAGGCCT CAGCACTTCT AGGCCAGACA TCTGCACTTC TAGGCCAGGT ATCCCAGGCA
    CCCCAACGAC TCACATCAGT GCCTCTAAGT GTTACAGAGA CTTCCGGTCA ACCATTAAAC
    CATCAAAACT GCAGTGAAGG GCCTACCCAA GAATATATGA CTGACATTCC TTTTCAAGCT
    GTTAATTTGG CACATAAAGA AGAATGTGTG AGAGCTGCCA ACTTTCAGCT TCCAACAGAA
    GGAGAAAAAA TGGCTGACAT GCTGAGGAAA GAAGCCCAGC AGCTGCAAGT TAAAATATTT
    CAGGATTTAA AAAGCAGTGT GGAAGCTCTA GAACTGGATT ACTTATTCAA AAAAGAGAAA
    CACCGGCAAA TGCAGCTTCA GGCTTACAGA GCAGAATCCC AGATGGTTGG GGAGTTTGAT
    CTGGAGAGAG AGGTGGAGGG GCAAATCTTC AGGCTGGAGA TGCTTCTAGA AAACATTCAA
    GAACAACTTA ATGCAAAAGT TCCATCAACT GAATCATCAG CAAATTCATA TGATACAGCA
    GTATCATCTA TATCAAAGCA GGCCCATAGG AACTCAGAGA CTTTAATGCA CGCTGTGGAT
    CTGAGTTTTA CAGAACAAAA CATGGATCAG AGCTCTGGCA AGGTGACAGG AAGGAAATCA
    CCAGCAGTGA CCCCTGCTTA TAATGATATT CACAGTAGCT GCATTTATCT TAATGCACAA
    GATTCCTCTT GTCTCACAGG GGTCTCTGCA GAGCACAGAA GTGCAAAATC AAACCAAGAG
    ACATATGTAT CTAAACTAAG AACATACGGA GAGCAACGTC CGACCGCTCA AAACAGGTAT
    TTGAGAGCGG AGGCTGCCAT CAAAAGAAAA ATGATGTCTT CAGGCAGAAG AAATGGCACA
    AGAGTTACTA AAGAAGTAGA TACAGCAGAA AATAGTTTGC CAGAATGCGA TGATATAGAA
    GATTCTTGTA GCTTAGAAGA TTCTTTTGGC TCGGATTGGA CATCATCGCA CTCTCAGATT
    TCAGAAAACA GGAGTTATGT GTCGTGGATT AAAAAAGATC ATATACGTGA AGAATCACAG
    AAGCAAAAAT CGAGGAGACC CCACACCCCA GAATACTATG GCAAGTTAAA CTTAGGCAAA
    GTGAAGTTGA ATAAGCACAG GAAGAGCATG CCAGCGTGCA GAGGCAACGT GCAGGCTCCC
    ACTTTAGAGT TTTCACGGCT TGCTGGTCTG GCATCTTCCC ACCAAACCGC CGTGAGTGCA
    GATCAGAGAA ATCTAGAGTT TATCGACTGC AAGATGTTAA ATTTTGCATT GGATAAGGCC
    ATTCGGACTG CCAGGAATAT GCAGAGGGTG ACAGAAAGAA TGGTAACCAG TTTGGCAGCA
    GGTCAGGCCA CTGGTATCTC CAGCTGGAGA TCAGAGAGTC ACTGGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_002932218.4
    CDS209..3616
    Translation

    Target ORF information:

    RefSeq Version XM_002932172.5
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis AKNA domain containing 1 (aknad1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002932172.5

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGGAGGAAA ATGATACAAC TGGGGATGAA CAAGAAGACT TGCCTTATGA TGGAATCCTT 
    GAATGTTATT TGACTTCAAA TATAGACCAA GAAGACATTA ACTATCTTGG TGAGGATACT
    GGTGGTTATC AATATGTAAT TCATCTTGGG AAAGAAAAAG CTCACTCTTT AAACAGTGCT
    GAGTGTGTTA AAGCGGAACT ACTTCCATCA AAAAATATTG ATGCTTCCAG TTTTTCTCAA
    CAAACCATTT CTGTGACTTT TGATGCTTCA GACCTGTCTT TGTCTAGCAA AGTAAATAGC
    AAGAGCTTAG AGTACCAGAG CACTGTCATT CCTGATACAC TGCACAATCA TTTTAATGGA
    GACAGTCTGT TTAATGAGTG TAATTTTATT GACCATGAGG CTATCCCAGA ATGCTCATTA
    GCTGATAGCA TTAATGGTGA TGTAATGAGT AAAATCAGTT TTTTAGACTC TAACAAGGAT
    AATGCTCAGT CGAAGCAAAT GGAAGACCAA GAAAAGTATT ATTTTGAAAG GGAATATATA
    AAGCCATTTA ATAACAAGGT TGCATTTATA TCTAACGAAG ACCTATCCAT TGATGCTTCC
    ATTCAGGAGA CAAATGTAGA GATAAATTGT GGATTACTAC GTGCAGAACA CATTTCAATA
    AAAGAACTGC AGCCTACTGA AACTGATATA ATAAACAAAG GTCTTCAAGA AAGAAGACAT
    TCTTTTCACG ATATCAAGTA TGGCCAAGGG CAGGTTAACT ACAAGCTACA GGATCTTACA
    AAAATACATC CTAAGGTAAA AATACCCAAT GGGAAGGACA GCTCTAGATC TGTCCCTAAT
    TTACAGAGAA GCAGATCATC TCCAAGTATG ATTGAACCCT CTGCTATGGT GAGAGAATTA
    CAGGACTCTA TGCAGCCTTC CAGCGAGCCT ATAAATATAA AAGACACAGT TAAGGCCTCA
    GACCAGGGAT CCCCACATGG ATCGTCTATT TATGAACTCG ACATACAGTA TTCTGAAACT
    GACCACAACC TTTTTCCAGA CAACCTCTCT AAGCAGCTGA AGGACTCATG GAGAAGCAAG
    GAAAGTGATA CAACTGGTGA TGAACAAGAA GACCTACCTT ATGATGGGAT CCTTGAATGT
    TATTTGATGC CAAATGTAAA TCAATTTGAC ATAAGCAATT CTAGTGAGGA TGCTGGAGGT
    CTTCAAAATG TAATTAATCT TGAGGAAAAA GGAAAATGTT ACTCTCCAAA TGGTGCTGAG
    TGTGTTAAGG AGGAACTGCT TATTCCTTCA GAAAATATTG ATGCTTCCAA TGCTTCAGAA
    CTGCCATTGT CTAGCAAAGG GAATAGCAAG AGCACTGTCA TTCCTGATGT CCTGCTTCGT
    CATTTTAAAG AAGACAGTCT TCTTAATCCG TGTAATTTCA TTGACTGTGA GACTTTCCCA
    GAACTCTCAT TAATTGAAAG CATTGATGAA ACTGTGATCA GTAAATTAAG TTTTTTAGAC
    TATAACAATG ACAGTGCTCA GTCAGAGCGA AGTGAAGACC AAAAAAAGTA TTTTTTGGAA
    AGAGACAAAG AACCACTCAA CATCCAGAAT GAATGCACAT CTAATCAAGA GCACGTTACT
    GATTTCTACT TTCAGGAGAG AGATGGAGTG ACAAATCATG GATCAAGTGC AGAAAGTATG
    GAGATAAAAG AATTGCAGCC TACTGAAATA GATAAAACAT ACAAAGAGCA TAGATATCAA
    GAAAGAAGAC ATTCTTCCTA TGATATCAAG TATGGCCAAG GGCAGGTTCA CTACAAGTTA
    CCGGATTTCT CAAAAATACC TCCAAAGGTC AAAATACCCA AAGGGAATGG CAGCTCTAGG
    TCTGTTCCTA CATTACACAG AAGCAGATCA TCCCCAAGTA TGATTAAATC GTCAGCTGTG
    GTGAGAGAAT TACTGGACAC TATGCAGCCT TTCAGTGAGA CTGTAAATAT AACAGAAACA
    ATTGAGGCCT CAGCACTTCT AGGCCAGACA TCTGCACTTC TAGGCCAGGT ATCCCAGGCA
    CCCCAACGAC TCACATCAGT GCCTCTAAGT GTTACAGAGA CTTCCGGTCA ACCATTAAAC
    CATCAAAACT GCAGTGAAGG GCCTACCCAA GAATATATGA CTGACATTCC TTTTCAAGCT
    GTTAATTTGG CACATAAAGA AGAATGTGTG AGAGCTGCCA ACTTTCAGCT TCCAACAGAA
    GGAGAAAAAA TGGCTGACAT GCTGAGGAAA GAAGCCCAGC AGCTGCAAGT TAAAATATTT
    CAGGATTTAA AAAGCAGTGT GGAAGCTCTA GAACTGGATT ACTTATTCAA AAAAGAGAAA
    CACCGGCAAA TGCAGCTTCA GGCTTACAGA GCAGAATCCC AGATGGTTGG GGAGTTTGAT
    CTGGAGAGAG AGGTGGAGGG GCAAATCTTC AGGCTGGAGA TGCTTCTAGA AAACATTCAA
    GAACAACTTA ATGCAAAAGT TCCATCAACT GAATCATCAG CAAATTCATA TGATACAGCA
    GTATCATCTA TATCAAAGCA GGCCCATAGG AACTCAGAGA CTTTAATGCA CGCTGTGGAT
    CTGAGTTTTA CAGAACAAAA CATGGATCAG AGCTCTGGCA AGGTGACAGG AAGGAAATCA
    CCAGCAGTGA CCCCTGCTTA TAATGATATT CACAGTAGCT GCATTTATCT TAATGCACAA
    GATTCCTCTT GTCTCACAGG GGTCTCTGCA GAGCACAGAA GTGCAAAATC AAACCAAGAG
    ACATATGTAT CTAAACTAAG AACATACGGA GAGCAACGTC CGACCGCTCA AAACAGGTAT
    TTGAGAGCGG AGGCTGCCAT CAAAAGAAAA ATGATGTCTT CAGGCAGAAG AAATGGCACA
    AGAGTTACTA AAGAAGTAGA TACAGCAGAA AATAGTTTGC CAGAATGCGA TGATATAGAA
    GATTCTTGTA GCTTAGAAGA TTCTTTTGGC TCGGATTGGA CATCATCGCA CTCTCAGATT
    TCAGAAAACA GGAGTTATGT GTCGTGGATT AAAAAAGATC ATATACGTGA AGAATCACAG
    AAGCAAAAAT CGAGGAGACC CCACACCCCA GAATACTATG GCAAGTTAAA CTTAGGCAAA
    GTGAAGTTGA ATAAGCACAG GAAGAGCATG CCAGCGTGCA GAGGCAACGT GCAGGCTCCC
    ACTTTAGAGT TTTCACGGCT TGCTGGTCTG GCATCTTCCC ACCAAACCGC CGTGAGTGCA
    GATCAGAGAA ATCTAGAGTT TATCGACTGC AAGATGTTAA ATTTTGCATT GGATAAGGCC
    ATTCGGACTG CCAGGAATAT GCAGAGGGTG ACAGAAAGAA TGGTAACCAG TTTGGCAGCA
    GGTCAGGCCA CTGGTATCTC CAGCTGGAGA TCAGAGAGTC ACTGGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.